교수소개
교수소개
 학과소개 교수소개
이름
노인섭
전공
생체재료, 하이드로젤, 3D 바이오프린팅 조직공학
TEL
02-970-6603
E-mail
insup@seoultech.ac.kr
연구실
청운관 219호
교수소개 돌아가기
학력
1992 - 1994 Univ. of Texas at Austin / Ph.D.(1997) Dr. Jeffrey A. Hubbell's Lab (Currently Univ. of Chicago, USA)
1989 - 1997 Univ. of Texas at Austin / MSE (1995) Dr. Jeffrey A. Hubbell's Lab
1981 - 1989 Konkuk University / BS
주요 경력
1. Education
2010 - Present
Department of Chemical and Biomolecular Engineering, Energy & Biotechnology College
Convergence Institute of Biomedical Eng. and Biomaterials ( Ph.D. and MS degree program, General Graduate School)
Convergence program of Biomedical Science and Technology (Master degree program, Industrial Graduate School)
Seoul National University of Science and Technology / Professor
1999 - 2010 Seoul National University of Technology / Associate/Assistant Professor/Full Time Instructor
1997 - 1999 Division of Harvard Univ.-MIT Health Science and Tech.(Postdoc, Dr./M.D. Elazer R. Edelman's Lab)
1995 - 1997 California Institute of Technology(Dept. of Chemical Eng., Special Graduate Student)

2. Careers
1) Advisory board, Molecular Systems Design & Engineering (MSDE), 2019-
2) Presidential Expert Council on Intellectual Properties(utilization), 국가지식재산위원회 활용분과 전문위원 (2011-2017)
3) Presidential Council on Intellectual Properties(creation), 국가지식재산위원회 창출분과 전문위원 (2018-현재)
4) Professional Society
- Fellow of Biomaterials Science and Engineering (FBSE), 2020-
- Delegate of International Union of Societies for Biomaterials Science and Engineering(IUS-BSE) (2020-
- Korea Society for Biomaterials(President; 2020)
- Korea Society for Biomaterials(vice President; 2014-2018)
- Korea Tissue Engineering and Regenerative Medicine Society (Vice President; 2015-Present)
- Korea Polymer Society (Biomedical Polymers Division Chief; 2016-2018)
- Korea Medical 3D Printing Society (2017-Present) 이사
7) Editor-in-chief
- Biomaterials Research (BiomedCentral, Springer-Nature)(2013-2018)
- Open Biomedical Engineering (Asia Editor-in-Cheif, 2015-2017)
- Biomedical Central, BMC Editors Advisory Board (2015-Present)
8) Editorial board members
- Biomedical Materials (SCIE)(IOP)
- Tissue Engineering and Regenerative Medicine (SCIE) (Springer, 2008-Present)
- International Biological & Biomedical Journal (2015-Present)
9) 중앙약사심의위원회 전문가. 식품의약품안전청(처) (2006-2014)
10) 의료기기심의위원, 식품의약품안전평가원(2017-현재)
11) 의료기기 소통위원회, 식품의약품안전평가원(2019-현재)
12) 산업통상자원부 전략물자관리원, 심의위원 (2006-present)
12) 보건의료신기술(NET) 심의위원
13) 소방방재청 중앙소방기술 심의위원 (2011.06-2014)
14) 보건산업진흥원, 신기술인증 심의위원 (2017-현재)
15) ISO TC150 전문위원, 국가기술표준원 (2014-2015)
16) Director of Institute for Biomedical Electronics, Seoultech (2011-present)
17) 식품의약품안전원 자체사업평가위원 (2016-현재)
18) 한중공동심포지엄 참여-운영(2004-현재)


1) Keynote Speaker : 29th European Conference on Biomaterials, September 9-13, 2018, Maastricht, Netherland, http://www.esb2018maastricht.org/programme/keynote_speakers

2)Invited Speaker: Biomaterials International July 22-26,2018, Toyko, Japan
http://www.biomaterials.tw/

3) Keynote Speaker: International Symposium of Biotechnology on Biomaterials, Stem Cell and Tissue Engineering (ISBBST), November 14-18, 2018 at Chengdu and Guangyuan, China

4) Invited Speaker: China-Korea Joint Symposium of Biomimetic Medical Materials, Oct 25-29,2018,Xian, China

5) Keynote Speaker, Korea Tissue Engineering and Regenerative Medicine, June 2021, Korea

6) Keynote Speaker, ChinaNano 2021, August 28, 2021, China
연구 분야
- Biomaterials (Polymers)
- Injectable hydrogels for 3D bioprinting and tissue engineering
- 3D/4D Bioprinting and its Biomaterials
- Polymer-ceramic hybrid hydrogel
- Scaffolds for tissue engineering
- Local drug delivery
- Nano-micro biotechnology
- Stem Cells Applications
담당 교과목
Teaching Courses :
- Tissue Engineering (Graduate Courese)
- Introduction to Convergence of Biomedical Engineering and Biomaterials (Graduate Course)
- Functional Polymers (Graduate Courses)
- Intorduction to Polymer Science and Technology (Undergraduate Courese)
- Organic Chemistry (Undergraduate Course)
- Biomaterials (Undergraduate Course)
주요논문 및 저서
Selective Recent Publications

143. Self-standing alginate-hyaluronate bioinks for manufacturing of multi-layered 3D-bioprinted constructs by controlling the cross-linking mechanisms and rheology for tissue engineering applications, Submitted to Materials Today Chemistry(IF 8.301), 07-24-2021
142. 3D Printing of Bioinspired Alginate-Albumin Based Instant Gel Ink with Electro-Conductivity and Its Expansion to Direct Four-Axis Printing of Hollow Porous Tubular Constructs without Supporting Materials, Gopinathan Janarthanan, Sumin Lee, Insup Noh, Advanced Functional Materials, IF 18.8/2021 JCR), Wiley, In press, 2021-07.21,
141. 3D-Printed Design of Antibiotic-Releasing Esophageal Patches for Animicrobial Activity Prevention, Seong-dong Kim, Ingul Kim, Hao Ngyun Tran, Hana Cho, Gopinathan Janarthanan, Chibum Lee, Insup Noh*, Eun-Jae Chung, online ” Tissue Engineering, Part A. Published Online:13 Apr 2021.07.24, (IF =3.77)
138. Bioink homogeneity control during 3D bioprinting of multicomponent micro/nanocomposite hydrogel for even tissue regeneration using novel twin screw extrusion system, Amitava Bhattacharyya, Gopinathan Janarthanan, Hao Nguyen Tran, HyungJun Ham, JeongHyun Yoon, Insup Noh, Chemical Engineering Journal (IF 13.3/2021) 2021.07.01, 415, 1-11

140. Nanobiomaterials for designing functional bioinks towards complex tissue and organ regeneration, Amitava Bhattacharyya, Gopinathan Janarthanan, Insup Noh, Additive Manufacturing, 37(2021) 101639, 1-14, (IF 11.84/2020-상위 1%, 10.998/2021)(2021.01.15.; 2020. 9.30
136. Symbiotic culture of nanocellulose pellicles: A potential matrix for 3D bioprinting, Mamatha M Pillai, Tran Nguyen Hao, G. Sathish Kumar, K. Manimekalai, Insup Noh*, Amitava Bhattacharyya, J. Materials Sci & Eng C, Volume 119(2021), 1-8, February 2021, DOI 111552, 7.238, 2020.09.28.
139. Recent trends in metal ion based hydrogel biomaterials for tissue engineering and biomedical applications, Gopinathan Janarthanan and Insup Noh, J of Materials Science and Technology(IF 6.040), 63(2021) 35-53 (2021.01.16.) (Online 2020.04.25
139. Major clues and pitfalls in the differential diagnosis of parathyroid and thyroid lesions using fine needle aspiration cytology, Hwa Jeong Ha, Eun Ju Kim, Jung-Soon Kim, Myung-Soon Shin, Insup Noh, Sunhoo Park, Jae Soo Koh, Seung-Sook Lee, Medicina, 2020, 56, 558, 2020.10.24.
138. Symbiotic culture of nanocellulose pellicles: A potential matrix for 3D bioprinting, Mamatha M Pillai, Tran Nguyen Hao, G. Sathish Kumar, K. Manimekalai, Insup Noh* (공동교신), Amitava Bhattacharyya, J. Materials Sci & Eng C, Volume 119, February 2021, 111552

137. Nanobiomaterials for designing functional bioinks towards complex tissue and organ regeneration, Amitava Bhattacharyya, Gopinathan Janarthanan, Insup Noh, Additive Manufacturing, 2020년 9월30일, 101639,
136. Self-crosslinking hyaluronic acid-carboxymethylcellulose hydrogel enhances multilayered 3D printed construct shape integrity and mechanical stability for soft tissue engineering, Gopinathan Janarthanan, HyunSoo Shin, In-Gul Kim, Pyeong Ji, Eun-Jae Chung, Chibum Lee, Insup Noh, Biofabrication, 12 (2020) 0450261-49
135. Recent trends in metal ion based hydrogel biomaterials for tissue engineering and biomedical applications, Gopinathan Janarthanan and Insup Noh, J of Materials Science and Technology (Online), 2020.04.25
134. 3D printable and injectable lactoferrin-loaded carboxymethyl cellulose-glycol chitosan hydrogels for tissue engineering applications, Gopinathan Janarthanan, Tran Nguyen Hao, Eunchong Cha, ChibumLee, Dipankar Das and Insup Noh, 1, 113(2020), Materials Science and Engineering C(Materials for Biological Applications), 111008, 1-14, 2020
133. Current Status of Characteristics and Applications of Chitosan-Polysaccharide Composite Hydrogels, Hyeok Kim, Gopinathan Janarthanan, Insup Noh, Journal of Chitin and Chitosan, 25(1) 1-12, 2020. 03.
132. Effects of molar ratios of two immiscible monomers towards development of amphiphilic, highly stretchable, bioadhesive, self-healing copolymeric hydrogel and its mineral active cellular behavior, Dipankar Das, Eunchong Cha, Sangji Lee, HyunSoo Shin and Insup Noh, Biomacromolecules, 2020 Feb 10. 21(2):892-902. doi: 10.1021/acs.biomac.9b01560
131. Comparative studies on thin polycaprolactone-tricalcium phosphate composite scaffolds and its interaction with mesenchymal stem cells, Gopinathan Janarthanan, InGul Kim, Eun-Jae Chung and Insup Noh, Biomaterials Research, (2019) 23:1, https://doi.org/10.1186/s40824-018-0153-7, 2019.01.04. (SCOPUS IF 2.67)
130. 3D Printable Hyaluronic Acid-based Hydrogel for Its Potential Application as a Bioink in Tissue Engineering, Insup Noh, Nahye Kim, Tran Nguyen Hao, Jaehoo Lee and Chibum Lee, Biomaterials Research (2019.Feb) (SCOPUS)
129. Tissue regeneration of human mesenchymal stem cells on porous gelatin micro-carriers by long-term dynamic in vitro culture, LeTuyen Nguyen, Sumi Bang and Insup Noh, Tissue Engineering and Regenerative Medicine (2019, Feb 2019) (SCIE)
127. 3D printable and injectable lactoferrin-loaded carboxymethyl cellulose-glycol chitosan hydrogels for tissue engineering applications, Janarthanan Gopinathan, Tran Nguyen Hao, Eunchong Cha, ChibumLee, Dipankar Das and InsupNoh, Submitted to Materials Science and Engineering C, IF 5.08 (Elsevier), 2018-11-05(SCI)
126. Fabrication of alginate-based stimuli-responsive, non-cytotoxic, terpolymric semi-IPN hydrogel as a carrier for controlled release of bovine albumin serum and 5-amino salicylic acid, Dipankar Das, Hien Thi Thu Pham, Seongho Lee, Insup Noh, accepted by Materials Science and Engineering C, 98(2019), 42-53, IF 5.08 (Top 10%) (Elsevier-ISSN 0928-4931). (SCI) (Jan, 2019)
125. A terpolymeric hydrogel of hyaluronate-hydroxyethyl acrylate-gelatin methacryloyl with tunable properties as biomaterial, Dipankar Das, Hana Cho, Nahye Kim, Thi Thu Hien Pham, InGul Kim, Eun-Jae Chung, Insup Noh, Carbohydrate Polymers, IF 5.158, top 6% (Elsevier), 2018.12.11(online) 2019.03, 207, 628-639 (SCI)
124. Click chemistry-based hydrogels for tissue engineering and regenerative medicine, Gopinathan Janarthanan and Insup Noh, Tissue Engineering and Regenerative Medicine, 15(5), 531-546, DOI: 10.1007/s13770-018-0152-8, 2018, (SCIE)

https://3dprint.com/223390/3d-printing-news-briefs-8-24-18/

123. Characterization of hyaluronate-based terpolymeric hydrogel synthesized via radical polymerization mechanism for biomedical applications, Dipankar Das, Thi Thu Hien Pham, and Insup Noh, Col Surface B Biointerface(Elsevier), 2018.10.01. 170(2018) 64-75 (SCI IF 3.997; ISSN: 0144-8617, Elsevier) 10.1016/j.colsurfb.2018.059 (SCI)
122. Recent trends on bioinks for 3D printing, Janarthanan Gopinathan and InsupNoh, Biomaterials Research, Biomaterials Research, (2018) 22:11(Scopus)
121. Overviews of Biomimetic Medical Materials, Dipankar Das and Insup Noh, (Book Chapter 1 to Biomimetic Medical Materials, Springer-Nature), 2018, 11, 26. Biomimetic Medical Materials, From Nanotechnology to 3D Bioprinting - Advances in Experimental Medicine and Biology book series (AEMB, volume 1064) (SCOPUS IF 1.73), ISBN 9789811304446
◾ 9789811304453 (online)
120. Current status of development and intellectual properties of biomimetic medical materials (2018) Gopinathan Janarthanan and Insup Noh, (Book Chapter 22 to Biomimetic Medical Materials, From Nanotechnology to 3D Bioprinting , Springer), 2018, 11.26, - Advances in Experimental Medicine and Biology book series (AEMB, volume 1064) (SCOPUS IF 1.73)
119. Development and biocompatibility characterizations of in situ chondroitin sulfate-gelatin hydrogel for tissue engineering, Sumi Bang, Ui-Won Jung and Insup Noh, Tissue Eng Regen Med, 2018, 15(1), 25–35 (print ISBN 1738-2696) https://doi.org/10.1007/s13770-017-0089-3,
117. Controlled release of paclitaxel via a drug-eluting stent through modulation of the size of drug particles in vivo, Bu Nam Jang, Sung Nam Kang, Tae-Twan Eom, Dong Keun Han, Sang-Hyun An, Insup Noh, Chang Hun Kum, Biomed Mater Res Part B: Applied Biomaterials, 2017-10-31(2018), DOI: 10.1002/jbm.b.34035 115. Synthesis and characterizations of alginate-α-tricalcium phosphate microparticle hybrid film with flexibility and high mechanical property as biomaterials, Dipankar Das, Shengmin Zhang, and Insup Noh, Biomedical Materials (Biomed. Mater.) 13 (2018) 025008
114. Characterizations of in situ chondroitin sulfate hydrogel by click chemistry for tissue engineering, Sumi Bang, Ui-WonJung, Shengmin Zhang, Gilson Khang, and Insup Noh, J Tissue Engineering and Regenerative Medicine, 2017-07- under 2nd revision
118. Evaluation of MC3T3 cells proliferation and drug release study from sodium hyaluronate-BDDGE patterned gel, Sumi Bang, Dipankar Das, Jiyun Yun and Insup Noh, Nanomaterials, 2017(10.14), 7(10) 328-346, doi:10.3390/nano7100328, 2017-10-04
116. Biomolecules release and cell responses of alginate-α-tricalcium phosphate hybrid gel, Dipankar Das, Sumi Bang, Shengmin Zhang and Insup Noh, Nanomaterials (IF 3.553, MDPI AG)- Special Issue "Multifunctional Nanocomposites in 3D Printing Technologies" (Nanomaterials 2017, 7, 389; doi:10.3390/nano7110389, 2017-11-14, IF 3.553)
113. Preliminary 19F-MRS Study of Tumor Cell Proliferation with 3'-deoxy-3'-fluorothymidine (FLT) and its metabolite (FLT-MP)" by In Ok Ko, Ki-Hye Jung, Mi Hyun Kim, Kyeung Jun Kang, Kyo Chul Lee, Kyeong Min Kim, Insup Noh, Yong Jin Lee, Jung Young Kim and Ji-Ae Park, Contrast Media & Molecular Imaging (2017.05.12) Article ID 3981358, 7 pages, 2017. doi:10.1155/2017/3981358.
112. Selective laser sintering scaffold with hierarchical architecture and gradient composition for osteochondral repair in rabbits, Du, Yingying; Liu, Haoming; Yang, Qin; Wang, Shuai; Wang, Jianglin; Ma, Jun; Noh, Insup; Mikos, Antonios G.; Zhang, Shengmin; 2017(August), Biomaterials 137, 37-48
111. A desktop multi-material 3D bio-printing system with open-source hardware and software, Jaehoo Lee, Kyu Eon Kim, Sumi Bang, Insup Noh, Chibum Lee, International Journal of Precision Engineering and Manufacturing, 18(4), 605-612, 2017-04-07

(2016)
110. Apatite-forming ability and antibacterial property of Ag-CaO-SiO2/polyetherether ketone composites, J. C. Lee, S. H. Rhee, J. Y. Choi, I. Noh, C. Ohtsuki and I. Y. Kim, Journal of Ceramic Processing Research. Vol. 17, No. 7, pp. 732~737 (2016)
109. Analysis of physical properties for various compositions of reusable LMG and LCG micelle gel, Jin Mook Kang, Dong Han Lee, Yu Ra Cho, Seon Bung Hwang, Young Hoon Ji, So Hyun Ahn, Ki Chang Keun, Re Na Lee, Sam Ju Cho, Insup Noh, Progress in Medcial Physics, 27(4), 175-179, Dec 2016
108. Micro/Nano Surface Topography and 3D Bioprinting of Biomaterials in Tissue Engineering, Dian Purwita Sari, Sumi Bang, LeTuyen Nguyen, Younghak Cho, Ki Dong Park, Sahnghoon Lee, Inseop Lee, Shengmin Zhang, and Insup Noh, J. Nanosci. Nanotechnol. 16, 8909-8922
107. A highly selective and sensitive fluorescent turn-on Al3+ chemosensor in aqueous media and living cells: experimental and theoretical studies, In Hong Hwang, Ye Won Choi, Kyung Beom Kim, Gyeong Jin Park, Jae Jun Lee, LeTuyen Nguyen, Insup Noh and Cheal Kim* New Journal of Chemistry, Royal Society of Chemistry, New J. Chem., 2016, 40, 171-178 (2016.06.)
106. Simultaneous bioimaging recognition of cation Al3+ and anion F- by a fluorogenic method, Yong Sung Kim, Jae Jun Lee **, Ye Won Choi, Ga Rim You, LeTuyen Nguyen, Insup Noh, Cheal Kim,* Dyes and Pigments, 129, 43-53, ELSVIER (2016.06)
105. Research Trends in Biomimetic Medical Materials for Tissue Engineering : 3D bioprinting, surface modification, nano/micro-technology and clinical aspects in tissue engineering of cartilage and bone (mini-review), Cen Chen, Sumi Bang, Younghak Cho, Sahnghoon Lee, Inseop Lee, ShengMin Zhang and Insup Noh*, Biomaterials Research, (2016.05.04.), 20(10)
104. Research Trends in Biomimetic Medical Materials for Tissue Engineering :–commentary, Biomaterials Research, Ki Dong Park†, Xiumei Wang†, Jae Young Lee, Kyung Min Park, ShengMin Zhang* and Insup Noh* (2016.03.29.), 20(8),
93. A highly selective turn-on chemosensor capable of monitoring Zn2+ concentrations in aqueous solution and living cells, Gyeong J Park; Hyun Kim; Jae J Lee; Yong S Kim; Sun Lee; Insup Noh; Suyeon Lee, Cheal Kim, Sensors and Actuators B 215 (2015) 568–576
94. Modulation of biomechanical properties of hyaluronic acid hydrogels by cross-linking agents, Sungchul Choi, Miae Yoo, Su Yeon Lee, Hyunji Lee, Donghoon Son, Jessica Jung, Insup Noh* and Chan-Wha Kim*, 2015, J Biomed Mater Res A, 2015, 103(9):3072-80 (IF 3.263)
95. Selective Zinc Sensor Based on Pyrazoles and Quinoline Used to Image Cells, Kim, Hyun; You, Ga Rim; Park, Gyeong; Choi, Ji Young; Noh, Insup; Kim, Youngmee; Kim, Sung-Jin; Kim, Cheal; Harrison, Roger, Dyes and Pigments, 113, 723-729, 2015.02.
96. A fluorescence sensor for Zn2+that also acts as a visible sensor for Co2+and Cu2+ Eun Joo Song, Gyeong Jin Park, Jae Jun Lee, Suyeon Lee, Insup Noh, Youngmee Kim, Sung-Jin Kim, Cheal Kim, Roger G. Harrison, Sensors and Actuators B, 213, (2015) 268–275
97. A water-soluble carboxylic-functionalized chemosensor for detecting Al3 in aqueous media and living cells: Experimental and theoretical studies, Jae Jun Lee, Gyeong Jin Park, Yong Sung Kim, Sun Young Lee, Hyun Ji Lee, Insup Noh, Cheal Kim, Biosensors and Bioelectronics, 69, 226–229 (2015, SCI)
저널 논문
1. Editor-in-chief
- Biomaterials Research (BiomedCentral, Springer-Nature)(2014-2019.03)
- Open Biomedical Engineering (Asian) Regional Editor-in-Cheif, 2015-Present)
- Biomedical Central, BMC Editors Advisory Board (2015-2020)
2. Editorial board members
- Biomedical Materials (SCIE)(IOP) (2008- Present)
- Tissue Engineering and Regenerative Medicine (SCIE) (Springer, 2008-Present)
- International Biological & Biomedical Journal (2015-Present)
◾ Changes in RBC deformability and oxygen-delivering ability in cold blood cardioplegia, Clinical Hemorheology and Microcirculation, pp.1~7,노인섭
◾ 3D Printing of Bioinspired Alginate-Albumin Based Instant Gel Ink with Electro-Conductivity and Its Expansion to Direct Four-Axis Printing of Hollow Porous Tubular Constructs without Supporting Materials, Advanced Functional Materials, vol.2021 pp.1~13, 2021노인섭
◾ Bioink homogeneity control during 3D bioprinting of multicomponent micro/nanocomposite hydrogel for even tissue regeneration using novel twin screw extrusion system, chemical Engineering Journal, 2021노인섭
◾ 3D-Printed Design of Antibiotic-Releasing Esophageal Patches for Animicrobial Activity Prevention, Tissue Engineering Part A, 2021노인섭
◾ Symbiotic culture of nanocellulose pellicle: A potential matrix for 3D bioprinting, Materials Science & Engineering C, vol.119, 2021노인섭
◾ Recent trends in metal ion based hydrogel biomaterials for tissue engineering and other biomedical applications, Journal of Materials Science & Technology, vol.63 No.2021 pp.35~53, 2021노인섭
◾ Nanobiomaterials for designing functional bioinks towards complex tissue and organ regeneration, Additive Manufacturing, vol.37 No.2021 pp.1~14, 2021노인섭
◾ Major Clues and Pitfalls in the Differential Diagnosis of Parathyroid and Thyroid Lesions Using Fine Needle Aspiration Cytology, MEDICINA-LITHUANIA, vol.56 No.11, 2020노인섭
◾ Self-crosslinking hyaluronic acid-carboxymethylcellulose hydrogel enhances multilayered 3D-printed construct shape integrity and mechanical stability for soft tissue engineering, BIOFABRICATION, vol.12 No.4, 2020노인섭
◾ 3D printable and injectable lactoferrin-loaded carboxymethyl cellulose-glycol chitosan hydrogels for tissue engineering applications, MATERIALS SCIENCE ENGINEERING C-MATERIALS FOR BIOLOGICAL APPLICATIONS, vol.113, 2020노인섭
◾ 키토산-다당류 복합 하이드로젤의 특성과 적용에 대한 최근 연구동향, Journal of Chitin and Chitosan, vol.25 No.1 pp.1~12, 2020노인섭
◾ Effects of molar ratios of two immiscible monomers towards development of amphiphilic, highly stretchable, bioadhesive, self-healing copolymeric hydrogel and its mineral active cellular behavior, Biomacromolecules, 2020
[원문보기] 노인섭
◾ Fabrication of alginate-based stimuli-responsive, non-cytotoxic, terpolymric semi-IPN hydrogel as a carrier for controlled release of bovine albumin serum and 5-amino salicylic acid, MATERIALS SCIENCE ENGINEERING C-MATERIALS FOR BIOLOGICAL APPLICATIONS, vol.98 pp.42~53, 2019
[원문보기] 노인섭
◾ A terpolymeric hydrogel of hyaluronate-hydroxyethyl acrylate-gelatin methacryloyl with tunable properties as biomaterial, CARBOHYDRATE POLYMERS, vol.207 pp.628~639, 2019
[원문보기] 노인섭
◾ 3D printable hyaluronic acid-based hydrogel for its potential application as a bioink in tissue engineering, Biomaterials Research, vol.23 No.1, 2019
[원문보기] 노인섭
◾ Tissue Regeneration of Human Mesenchymal Stem Cells on Porous Gelatin Micro-Carriers by Long-Term Dynamic In Vitro Culture, TISSUE ENGINEERING AND REGENERATIVE MEDICINE, vol.16 No.1 pp.19~28, 2019
[원문보기] 노인섭
◾ Comparative studies on thin polycaprolactone-tricalcium phosphate composite scaffolds and its interaction with mesenchymal stem cells, Biomaterials Research, vol.23 No.1, 2019
[원문보기] 노인섭
◾ Click Chemistry-Based Injectable Hydrogels and Bioprinting Inks for Tissue Engineering Applications, TISSUE ENGINEERING AND REGENERATIVE MEDICINE, vol.15 No.5 pp.531~546, 2018
[원문보기] 노인섭
◾ Characterizations of hyaluronate-based terpolymeric hydrogel synthesized via free radical polymerization mechanism for biomedical applications, COLLOIDS AND SURFACES B-BIOINTERFACES, vol.170 pp.64~75, 2018
[원문보기] 노인섭
◾ Controlled release of paclitaxel via a drug eluting stent through modulation of the size of drug particles in vivo, Biomed Mater Res Part B: Applied Biomaterials, vol.6 No.106B pp.2275 ~2283 , 2018
[원문보기] 노인섭
◾ Recent trends in bioinks for 3D printing, Biomaterials Research, vol.22 No.1, 2018
[원문보기] 노인섭
◾ Synthesis and Biocompatibility Characterizations of in Situ Chondroitin Sulfate–Gelatin Hydrogel for Tissue Engineering, Tissue Engineering and Regenerative Medicine, vol.15 No.1 pp.25~35, 2018
[원문보기] 노인섭
◾ Synthesis and Biocompatibility Characterizations of in Situ Chondroitin Sulfate-Gelatin Hydrogel for Tissue Engineering, TISSUE ENGINEERING AND REGENERATIVE MEDICINE, vol.15 No.1 pp.25~35, 2018
[원문보기] 노인섭
◾ Synthesis and characterizations of alginate-alpha-tricalcium phosphate microparticle hybrid film with flexibility and high mechanical property as a biomaterial, BIOMEDICAL MATERIALS, vol.13 No.2, 2018
[원문보기] 노인섭
◾ Bioactive Molecules Release and Cellular Responses of Alginate-Tricalcium Phosphate Particles Hybrid Gel, NANOMATERIALS, vol.7 No.11 , 2017
[원문보기] 노인섭
◾ Evaluation of MC3T3 Cells Proliferation and Drug Release Study from Sodium Hyaluronate-1,4-butanediol Diglycidyl Ether Patterned Gel, NANOMATERIALS, vol.7 No.10 , 2017
[원문보기] 노인섭
◾ Preliminary F-19-MRS Study of Tumor Cell Proliferation with 3 '-deoxy-3 '-fluorothymidine and Its Metabolite (FLT-MP), CONTRAST MEDIA MOLECULAR IMAGING, 2017
[원문보기] 노인섭
◾ Selective laser sintering scaffold with hierarchical architecture and gradient composition for osteochondral repair in rabbits, BIOMATERIALS, vol.137 pp.37~48, 2017
[원문보기] 노인섭
◾ A Desktop Multi-Material 3D Bio-Printing System with Open-Source Hardware and Software, INTERNATIONAL JOURNAL OF PRECISION ENGINEERING AND MANUFACTURING, vol.18 No.4 pp.605~612, 2017
[원문보기] 노인섭
◾ Analysis of Physical Properties for Various Compositions of Reusable LMG and LCV Micelle Gel, 의학물리, vol.27 No.4 pp.175~179, 2016
[원문보기] 노인섭
◾ Micro/Nano Surface Topography and 3D Bioprinting of Biomaterials in Tissue Engineering, JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, vol.16 No.9 pp.8909~8922, 2016
[원문보기] 노인섭
◾ Apatite-forming ability and antibacterial property of Ag-CaO-SiO2/polyetherether ketone composites, JOURNAL OF CERAMIC PROCESSING RESEARCH, vol.17 No.7 pp.732~737, 2016
[원문보기] 노인섭
◾ Research trends in biomimetic medical materials for tissue engineering: 3D bioprinting, surface modification, nano/micro-technology and clinical aspects in tissue engineering of cartilage and bone, 생체재료학회지, vol.20 No.2 pp.96~102, 2016
[원문보기] 노인섭
◾ Simultaneous bioimaging recognition of cation Al3+ and anion F- by a fluorogenic method, DYES AND PIGMENTS, vol.129 pp.43~53, 2016
[원문보기] 노인섭
◾ Research trends in biomimetic medical materials for tissue engineering:commentary, 생체재료학회지, vol.20 No.1 pp.23~28, 2016
[원문보기] 노인섭
◾ A dual chemosensor for Zn2+ and Co2+ in aqueous media and living cells: Experimental and theoretical studies, SENSORS AND ACTUATORS B-CHEMICAL, vol.223 pp.509~519, 2016
[원문보기] 노인섭
◾ A highly selective and sensitive fluorescent turn-on Al3+ chemosensor in aqueous media and living cells: experimental and theoretical studies, NEW JOURNAL OF CHEMISTRY, vol.40 No.1 pp.171~178, 2016
[원문보기] 노인섭
◾ Modulation of biomechanical properties of hyaluronic acid hydrogels by crosslinking agents, JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A, vol.103 No.9 pp.3072~3080, 2015
[원문보기] 노인섭
◾ A highly selective turn-on chemosensor capable of monitoring Zn2+ concentrations in living cells and aqueous solution, SENSORS AND ACTUATORS B-CHEMICAL, vol.215 pp.568~576, 2015
[원문보기] 노인섭
◾ A fluorescence sensor for Zn2+ that also acts as a visible sensor for Co2+ and Cu2+, SENSORS AND ACTUATORS B-CHEMICAL, vol.213 pp.268~275, 2015
[원문보기] 노인섭
◾ A water-soluble carboxylic-functionalized chemosensor for detecting Al3+ in aqueous media and living cells: Experimental and theoretical studies, BIOSENSORS BIOELECTRONICS, vol.69 pp.226~229, 2015
[원문보기] 노인섭
◾ Synthesis and in vitro characterizations of porous carboxymethyl cellulose-poly(ethylene oxide) hydrogel film, 생체재료학회지, vol.19 No.12 pp.1~12, 2015
[원문보기] 노인섭
◾ A highly selective CHEF-type chemosensor for monitoring Zn2+ in aqueous solution and living cells, RSC ADVANCES, vol.5 pp.41905~41913, 2015
[원문보기] 노인섭
◾ Selective zinc sensor based on pyrazoles and quinoline used to image cells, DYES AND PIGMENTS, vol.113 pp.723~729, 2015
[원문보기] 노인섭
◾ Frontiers in Regenerative Medical Materials, Comments from the participants of the 2014 China-Korea Symposium on Biomimetic and Regenerative Medical Materials, Regenerative Biomaterials, vol.2 No.1 pp.71~76, 2015
[원문보기] 노인섭
◾ A platform technique for growth factor delivery with novel mode of action, BIOMATERIALS, vol.35 pp.9888~9896, 2014노인섭
◾ Biocompatibility and Resorption Pattern of Newly Developed Hyaluronic Acid Hydrogel Reinforced Three-layer Poly(Lactide-co-glycolide) Membrane, 생체재료학회지, vol.18 No.4 pp.107~113, 2014노인섭
◾ 항균성 Ag-30CaO·70SiO2 Gel의 MC3T3 세포적합성에 관한 연구, 한국재료학회지, vol.24 No.12 pp.671~676, 2014노인섭
◾ Biological evaluation of micro-patterned hyaluronic acid hydrogel for bone tissue engineering, PURE AND APPLIED CHEMISTRY, vol.86 No.12 pp.1911~1922, 2014
[원문보기] 노인섭
◾ 항균성 AG-30CAO·70SIO2 GEL의 MC3T3 세포적합성에 관한 연구, 한국재료학회지, vol.24 No.12 pp.671~676, 2014
[원문보기] 노인섭
◾ Biocompatibility and Resorption Pattern of Newly Developed Hyaluronic Acid Hydrogel Reinforced Three-layer Poly(Lactide-co-glycolide) Membrane, 생체재료학회지, vol.18 No.4 pp.107~113, 2014
[원문보기] 노인섭
◾ A platform technique for growth factor delivery with novel mode of action, BIOMATERIALS, vol.35 No.37 pp.9888~9896, 2014
[원문보기] 노인섭
◾ Biological Evaluation of Micro-patterned Hyaluronic Acid Hydrogel for Bone Tissue Engineering, Pure and Applied Chemistry, 2014노인섭
◾ Tissue Regeneration in the Pores of Poly(lactide-co-glycolide)-Impregnated Wall of Expanded Polytetrafluoroethylene (ePTFE) Hybrid Grafts, 조직공학과 재생의학, vol.11 No.4 pp.323~332, 2014
[원문보기] 노인섭
◾ Tissue Regeneration in the Pores of Poly(lactide-co-glycolide)-Impregnated Wall of Expanded Polytetrafluoroethylene (ePTFE) Hybrid Grafts, Tissue Eng Regen Med, 2014노인섭
◾ Evaluation of the effects of Ag ion concentration on osteoblast activity, Key Engineering Materials, vol.631 No.26 pp.390~394, 2014
[원문보기] 노인섭
◾ The Korean Society for Biomaterials joins forces with BioMed Central, 생체재료학회지, vol.18 No.2 pp.25~25, 2014노인섭
◾ A single chemosensor for multiple analytes: fluorogenic detection of Zn2+ and OAc- ions in aqueous solution, and an application to bioimaging, NEW JOURNAL OF CHEMISTRY, vol.38 No.6 pp.2587~2594, 2014
[원문보기] 노인섭
◾ Purification and Biocompatibility of Fermented Hyaluronic Acid for Its Applications to Biomaterials, 생체재료학회지, vol.18 No.2 pp.39~47, 2014노인섭
◾ The Korean Society for Biomaterials joins forces with BioMed Central, 생체재료학회지, vol.18 No.2 pp.25~25, 2014
[원문보기] 노인섭
◾ Purification and Biocompatibility of Fermented Hyaluronic Acid for Its Applications to Biomaterials, 생체재료학회지, vol.18 No.2 pp.39~47, 2014
[원문보기] 노인섭
◾ A single fluorescent chemosensor for multiple target ions: Recognition of Zn2+ in 100% aqueous solution and F- in organic solvent, Sensors and Actuators B, 2014노인섭
◾ A single fluorescent chemosensor for multiple target ions: Recognition of Zn2+ in 100% aqueous solution and F- in organic solvent, SENSORS AND ACTUATORS B-CHEMICAL, vol.195 pp.36~43, 2014
[원문보기] 노인섭
◾ A single chemosenosor for multiple analytes: fluorogenic detection for Zn2+ and OAc- ions in aqueous solution, and an application to bioimaging, New Journal of Chemistry, 2014노인섭
◾ A new multifunctional Schiff base as a fluorescence sensor for Al3+ and a colorimetric sensor for CN- in aqueous media: an application to bioimaging, DALTON TRANSACTIONS, vol.43 No.18 pp.6650~6659, 2014노인섭
◾ A new multifunctional Schiff base as a fluorescence sensor for Al3+ and a colorimetric sensor for CN- in aqueous media: an application to bioimaging, DALTON TRANSACTIONS, vol.43 No.18 pp.6650~6659, 2014
[원문보기] 노인섭
◾ 가교결합된 히알루론산 필름의 물리적/생물학적 평가, 생체재료학회지, vol.17 No.4 pp.153~159, 2013노인섭
◾ 온도감응성 입자가 포함된 셀룰로오스 하이드로젤의 생체적합성 평가, 생체재료학회지, vol.17 No.4 pp.181~186, 2013노인섭
◾ 온도감응성 입자가 포함된 셀룰로오스 하이드로젤의 생체적합성 평가, 생체재료학회지, vol.17 No.4 pp.181~186, 2013
[원문보기] 노인섭
◾ 가교결합된 히알루론산 필름의 물리적/생물학적 평가, 생체재료학회지, vol.17 No.4 pp.153~159, 2013
[원문보기] 노인섭
◾ Preparation and Characterization of Calcium Phosphate Cement of α-Tricalcium Phosphate-Tetracalcium Phosphate-Dicalcium Phosphate System Incorporated with Poly(γ-glutamic acid), Macromolecular Research, vol.21 No.8 pp.892~898, 2013노인섭
◾ Preparation and characterization of calcium phosphate cement of alpha-tricalcium phosphate-tetracalcium phosphate-dicalcium phosphate system incorporated with poly(gamma-glutamic acid), MACROMOLECULAR RESEARCH, vol.21 pp.892~898, 2013
[원문보기] 노인섭
◾ Coating of Poly(ethylene glycol) for Prevention of Biofilm Formation on the Surface of Polyethylene Ventilation Devices, 생체재료학회지, vol.17 No.2 pp.55~61, 2013
[원문보기] 노인섭
◾ Coating of Poly(ethylene glycol) for Prevention of Biofilm Formation on the Surface of Polyethylene Ventilation Devices, 생체재료학회지, vol.17 No.2 pp.55~61, 2013노인섭
◾ Coating of Poly(ethylene glycol) for Prevention of Biofilm Formation on the Surface of Polyethylene Ventilation Devices, 생체재료학회지, vol.17 No.2 pp.55~61, 2013
[원문보기] 노인섭
◾ Zinc sensors with lower binding affinities for cellular imaging, DALTON TRANSACTIONS, 2013노인섭
◾ Zinc sensors with lower binding affinities for cellular imaging, Dalton Transactions, vol.42 No.15 pp.5500~5507, 2013
[원문보기] 노인섭
◾ Effects of recombinant human bone morphogenic protein-2 and human bone marrow-derived stromal cells on in vivo bone regeneration of chitosan-poly(ethylene oxide) hydrogel, JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A, vol.101A pp.892~901, 2013
[원문보기] 노인섭
◾ Silicate-doped hydroxyapatite and its promotive effect on bone mineralization, Frontiers of Materials Science, vol.7 No.1 pp.40~50, 2013노인섭
◾ Silicate-doped hydroxyapatite and its promotive effect on bone mineralization, FRONTIERS OF MATERIALS SCIENCE, vol.7 No.1 pp.40~50, 2013
[원문보기] 노인섭
◾ Effects of recombinant human bone morphogenic protein-2 and human bone marrow-derived stromal cells on in vivo bone regeneration of chitosan-poly(ethylene oxide) hydrogel, JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A, 2013노인섭
◾ Effect of an adipose-derived stem cell and nerve growth factor-incorporated hydrogel on recovery of erectile function in a rat model of cavernous nerve injury, Tissue Engineering - Part A, vol.19 No.1-2 pp.14~23, 2013노인섭
◾ A cap-type Schiff base acting as a fluorescence sensor for zinc(II) and a colorimetric sensor for iron(II), copper(II), and zinc(II) in aqueous media, DALTON TRANSACTIONS, vol.42 No.47 pp.16569~16577, 2013
[원문보기] 노인섭
◾ Effect of an Adipose-Derived Stem Cell and Nerve Growth Factor-Incorporated Hydrogel on Recovery of Erectile Function in a Rat Model of Cavernous Nerve Injury, TISSUE ENGINEERING PART A, vol.19 No.43102 pp.14~23, 2013
[원문보기] 노인섭
◾ A cap-type Schiff base acting as a fluorescence sensor for zinc(II) and a colorimetric sensor for iron(II), Dalton Transactions, 2013노인섭
◾ Inhibition of Biofilm Formation on Ventilation Tubes by Surface Modification, IN VIVO, vol.26 No.6 pp.907~911, 2012
[원문보기] 노인섭
◾ Inhibition of biofilm formation on ventilation tubes by surface modification, IN VIVO, 2012노인섭
◾ Synthesis of In situ chondroitin sulfate hydrogel through phosphine-mediated Michael type addition reaction, MACROMOLECULAR RESEARCH, vol.20 No.9 pp.968~976, 2012
[원문보기] 노인섭
◾ Synthesis of In situ Chondroitin Sulfate Hydrogel through Phosphine-Mediated Michael Type Addition Reaction, Macromolecular Research, vol.20 No.9 pp.968~976, 2012노인섭
◾ Effects of bone morphogenic protein-2 and h-mesenchymal stem cells on in vivo bone regeneration of chitosan-poly(ethylene oxide) hydrogel , JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A, 2012노인섭
◾ Evaluations of Nerve Cell Compatibility of Self Cross-Linking Chitosan-Poly(Ethylene Oxide) Hydrogel, TISSUE ENGINEERING AND REGENERATIVE MEDICINE, vol.9 No.2 pp.84~91, 2012
[원문보기] 노인섭
◾ Nerve Cell Compatibility of Self Cros, Tissue Engineering and Regenerative Medicine, vol.9 No.2 pp.84~91, 2012노인섭
◾ Evaluations of Nerve Cell Compatibility of Self Cross-Linking Chitosan-Poly(Ethylene Oxide) Hydrogel, 조직공학과 재생의학, vol.9 No.2 pp.84~91, 2012노인섭
◾ 싸이클로트론 이온빔에 의한 조직공학용 키토산 코팅된 다공성 하이브리드 지지체의 조직재생 기능 향상유도, , 2012노인섭
◾ 싸이클로트론 이온 빔에 의한 조직공학용 키토산 코팅된 다공성 하이브리드 지지체의 조직재생기능 향상유도, (2011-2012) 사이클클로트론 이용자 연구결과 연보, pp.32~33, 2012
[원문보기] 노인섭
◾ Induction and biological evaluations of self cross-linking chondroitin sulfate-poly(ethylene oxide) hydrogel, MACROMOLECULAR RESEARCH, vol.19 No.12 pp.1303~1309, 2011노인섭
◾ Mechanism of Albumin Release from Alginate and Chitosan Beads Fabricated in Dual Layers, MACROMOLECULAR RESEARCH, 2011노인섭
◾ Induction and biological evaluations of self cross-linking chondroitin sulfate-poly(ethylene oxide) hydrogel, MACROMOLECULAR RESEARCH, vol.19 No.12 pp.1303~1309, 2011노인섭
◾ Effect of cross-linking spacers on biocompatibility of chitosan-spacer-poly(ethylene oxide) hydrogel, MACROMOLECULAR RESEARCH, vol.19 No.6 pp.573~581, 2011노인섭
◾ Effect of cross-linking spacers on biocompatibility of chitosan-spacer-poly(ethylene oxide) hydrogel, MACROMOLECULAR RESEARCH, vol.19 No.6 pp.573~581, 2011노인섭
◾ Mechanism of albumin release from alginate and chitosan beads fabricated in dual layers, MACROMOLECULAR RESEARCH, vol.19 No.5 pp.476~482, 2011노인섭
◾ Mechanism of albumin release from alginate and chitosan beads fabricated in dual layers, MACROMOLECULAR RESEARCH, vol.19 No.5 pp.476~482, 2011노인섭
◾ Physicochemical properties of chitosan-poly(ethylene oxide) hydrogel modified through linoleic acid, MACROMOLECULAR RESEARCH, vol.19 No.4 pp.396~402, 2011노인섭
◾ Physicochemical properties of chitosan-poly(ethylene oxide) hydrogel modified through linoleic acid, MACROMOLECULAR RESEARCH, vol.19 No.4 pp.396~402, 2011노인섭
◾ The Effect of Adhesion Barriers in Preventing Pericardial Adhesion Depending on the Type of Barrier: Solution Type versus Film Type, 생체재료학회지, vol.15 No.1 pp.22~27, 2011노인섭
◾ Development and Physicochemical Evaluation of Chondroitin Sulfate-Poly(ethylene oxide) Hydrogel, MACROMOLECULAR RESEARCH, vol.19 No.2 pp.147~155, 2011노인섭
◾ Development and Physicochemical Evaluation of Chondroitin Sulfate-Poly(ethylene oxide) Hydrogel, MACROMOLECULAR RESEARCH, vol.19 No.2 pp.147~155, 2011노인섭
◾ Changes in RBC deformability and oxygen-delivering ability in cold blood cardioplegia, Clinical Hemorheology and Microcirculation, vol.48 No.4 pp.223~229, 2011노인섭
◾ Changes in RBC deformability and oxygen-delivering ability in cold blood cardioplegia, CLINICAL HEMORHEOLOGY AND MICROCIRCULATION, vol.48 No.4 pp.223~229, 2011노인섭
◾ Changes in RBC deformability and oxygen-delivering ability in cold blood cardioplegia, CLINICAL HEMORHEOLOGY AND MICROCIRCULATION, vol.48 No.4 pp.223~229, 2011노인섭
◾ Cellular behaviors on the chitosan-coated porous poly(lactide-co-glycolide) hybrid scaffolds modified by ion beams, SURFACE COATINGS TECHNOLOGY Volume: 205, pp.404~1, 2010노인섭
◾ Cellular behaviors on the chitosan-coated porous poly(lactide-co-glycolide) hybrid scaffolds modified by ion beams, SURFACE COATINGS TECHNOLOGY Volume: 205, pp.404~1, 2010노인섭
◾ Evaluation of the Hemodynamics of a Tissue-engineered Hybrid Graft, ARTIFICIAL ORGANS, vol.34 pp.E17~E21, 2010노인섭
◾ Evaluation of the Hemodynamics of a Tissue-engineered Hybrid Graft, ARTIFICIAL ORGANS, vol.34 pp.E17~E21, 2010노인섭
◾ 고에너지 이온 빔을 이용한 다공성 Poly (lactide-co-glycolide) 지지체의 개질과 분석, 생체재료학회지, vol.13 No.4 pp.152~158, 2009노인섭
◾ 고에너지 이온 빔을 이용한 다공성 Poly (lactide-co-glycolide) 지지체의 개질과 분석, 생체재료학회지, vol.13 No.4 pp.152~158, 2009노인섭
◾ 콘드로이틴설페이트 및 관련 단백당 고분자의 생물학적 특성과 바이오소재 응용, 고분자과학과 기술, 2009노인섭
◾ Modification of the bulk properties of the porous poly(lactide-co-glycolide) scaffold by irradiation with a cyclotron ion beam with high energy for its application in tissue engineering, BIOMEDICAL MATERIALS, vol.4, 2009노인섭
◾ 콘드로이틴설페이트 및 관련 단백당 고분자의 생물학적 특성과 바이오소재 응용, Polymer Science and Technology, 2009노인섭
◾ Glucose Prediction in the Interstitial Fluid Based on Infrared Absorption Spectroscopy Using Multi-component Analysis, Journal of Optical Society of Korea, vol.13 No.2 pp.279~285, 2009노인섭
◾ Glucose Prediction in the Interstitial Fluid Based on Infrared Absorption Spectroscopy Using Multi-component Analysis, JOURNAL OF THE OPTICAL SOCIETY OF KOREA, vol.13 No.2 pp.279~285, 2009노인섭
◾ Characterization of low-molecular-weight hyaluronic acid-based hydrogel and differential stem cell responses in the hydrogel microenvironments, JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A, vol.88A No.4 pp.967~975, 2009노인섭
◾ Characterizations of the TiO2-x films synthesized by e-beam evaporation for endovascular applications, BIOMEDICAL MATERIALS, vol.4, 2009노인섭
◾ Characterizations of the TiO2-x films synthesized by e-beam evaporation for endovascular applications, Biomed. Mater. (Bristol), vol.4 No.1, 2009노인섭
◾ Modification of the bulk properties of the porous poly(lactide-co- glycolide) scaffold by irradiation with a cyclotron ion beam with high energy for its application in tissue engineering, Biomed. Mater. (Bristol), vol.4 No.4, 2009노인섭
◾ Characterization of low-molecular-weight hyaluronic acid-based hydrogel and differential stem cell responses in the hydrogel microenvironments, JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A, vol.88A pp.967~975, 2009노인섭
◾ Synthesis and characterization of matrix metalloprotease sensitive-low molecular weight hyaluronic acid based hydrogels, JOURNAL OF MATERIALS SCIENCE-MATERIALS IN MEDICINE, vol.19 pp.3311~3318, 2008노인섭
◾ Synthesis and characterization of matrix metalloprotease sensitive-low molecular weight hyaluronic acid based hydrogels, Journal of Materials Science: Materials in Electronics, vol.19 No.11 pp.3311~3318, 2008노인섭
◾ In vitro response of primary human bone marrow stromal cells to recombinant human bone morphogenic protein-2 in the early and late stages of osteoblast differentiation, DEVELOPMENT GROWTH & DIFFERENTIATION, vol.50 pp.553~564, 2008노인섭
◾ 히알루론산 유도체의 생체재료 응용 Applications of Hyaluronic Acid Derivatives in Biomaterials, 생체재료학회지, vol.12 No.3 pp.83~95, 2008노인섭
◾ In vitro response of primary human bone marrow stromal cells to recombinant human bone morphogenic protein-2 in the early and late stages of osteoblast differentiation, Development Growth and Differentiation, vol.50 No.7 pp.553~564, 2008노인섭
◾ 히알루론산 유도체의 생체재료 응용, 생체재료학회지, vol.12 No.3 pp.83~95, 2008노인섭
◾ Control of chitosan molecular weight with cyclotron ion beam irradiation, JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS, vol.69 pp.1577~1580, 2008노인섭
◾ Analysis of chitosan irradiated with high-energy cyclotron ion beams, JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS, vol.69 pp.1569~1572, 2008노인섭
◾ 적외선 분광학에 의한 간질액 글루코즈 농도 측정의 정확도 향상, 센서학회지, vol.17 No.2 pp.120~126, 2008노인섭
◾ 적외선 분광학에 의한 간질액 글루코즈 농도 측정의 정확도 향상, 센서학회지, vol.17 No.2 pp.120~126, 2008노인섭
◾ Control of chitosan molecular weight with cyclotron ion beam irradiation, JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS, vol.69 No.5-6 pp.1577~1580, 2008노인섭
◾ Evaluation of porous poly(lactide-co-glycolide) scaffold surface-modified by irradiation of nitrogen ion beams, SURFACE & COATINGS TECHNOLOGY, vol.202 pp.5713~5717, 2008노인섭
◾ Synthesis and characterization of in situ chitosan-based hydrogel via grafting of carboxyethyl acrylate, JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A, vol.83A No.3 pp.674~682, 2007노인섭
◾ Synthesis and characterization of in situ chitosan-based hydrogel via grafting of carboxyethyl acrylate, JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A, vol.83A pp.674~682, 2007노인섭
◾ Modification of Expanded Polytetrafluoroethylene Surface with Low-Energy Nitrogen-Ion-Beam Irradiation, Journal of the Korean Physical Society, vol.50 No.I pp.1579~1583, 2007노인섭
◾ MODIFICATION OF EXPANDED POLYTETRAFLUOROETHYLENE VASCULAR GRAFT SURFACE WITH LOW ENERGY NITROGEN ION BEAM IRRADIATION, JOURNAL OF THE KOREAN PHYSICAL SOCIETY, vol.50 pp.1579~1583, 2007노인섭
◾ Bone regeneration using hyaluronic acid-based hydrogel with bone morphogenic protein-2 and human mesenchymal stem cells, BIOMATERIALS, vol.28 pp.1830~1837, 2007노인섭
◾ Bone regeneration using hyaluronic acid-based hydrogel with bone morphogenic protein-2 and human mesenchymal stem cells, Biomaterials, vol.28 No.10 pp.1830~1837, 2007노인섭
◾ Synthesis and Evaluation of Hyaluronic Acid-Poly(ethylene oxide) Hydrogel via Michael Type Addition Reaction, Current Applied Physics, vol.7 No.S1 pp.28~32, 2007노인섭
◾ Surface modification of a polytetrafluoroethylene film with cyclotron ion beams and its evaluation, SURFACE & COATINGS TECHNOLOGY, vol.201 pp.5724~5728, 2007노인섭
◾ Surface modification of polytetrafluoroethylene using atmospheric pressure plasma jet for medical application, SURFACE & COATINGS TECHNOLOGY, vol.201 No.201 pp.5097~5101, 2007노인섭
◾ Evaluation of acid-treated hyaluronic acid for hyaluronic acid-based hydrogelation, Key Engineering Materials - 직접입력, vol.343 No.0 pp.745~748, 2007노인섭
◾ Tissue regeneration of a hybrid vascular graft composed of biodegradable layers and non-biodegradable layer by static and pulsatile flows, Key Engineering Materials, vol.342-343 pp.61~64, 2007노인섭
◾ Release profile of a model protein drug depending on the stability of microspheres based on polyelectrolyte complex, Key Engineering Materials, vol.342-343 pp.505~508, 2007노인섭
◾ A novel method for porous chitosan scaffold, Key Engineering Materials, vol.342-343 pp.65~68, 2007노인섭
◾ Effect of molecular structure of chitosan-poly(ethylene oxide) hydrogel on cellular interaction for tissue regeneration, Key Engineering Materials - 직접입력, vol.0 No.0 pp.765~768, 2007노인섭
◾ Characterization of hyaluronic acid-poly(ethylene oxide) hydrogel dependent upon poly(ethylene oxide), Key Engineering Materials, vol.342-343 pp.749~752, 2007노인섭
◾ A novel method for porous chitosan scaffold, Key Engineering Materials, vol.342-343 pp.65~68, 2007노인섭
◾ Evaluation of acid-treated hyaluronic acid-based hydrogelation, Key Engineering Materials, vol.342-343 pp.745~748, 2007노인섭
◾ Characterization of hyaluronic acid-poly(ethylene oxide) hydrogel dependent upon poly(ethylene oxide), Key Engineering Materials, vol.342-343 pp.749~752, 2007노인섭
◾ Tissue regeneration of a hybrid vascular graft composed of biodegradable layers and non-biodegradable layer by static and pulsatile flows, Key Engineering Materials, vol.342-343 pp.61~64, 2007노인섭
◾ Release profile of a model protein drug depending on the stability of microspheres based on polyelectrolyte complex, Key Engineering Materials, vol.342-343 pp.505~508, 2007노인섭
◾ Effect of hydroxyapatite-tricalcium phosphate micro-particles on the cellular interaction of in situ hyaluronic acid-poly(ethylene oxide) hydrogel, Key Engineering Materials, vol.342-343 pp.765~768, 2007노인섭
◾ Diffusion of bioactive molecules through the walls of the medial tissue-engineered hybrid ePTFE grafts for applications in designs of vascular tissue regeneration, JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A, vol.79A pp.943~953, 2006노인섭
◾ Surface Modification of the Polytetrafluoroethylene Films with Treatmentof Low Energy Ion Beams, 생체재료학회지, vol.10 No.4 pp.201~205, 2006노인섭
◾ Characterization of Hyaluronic, 2006노인섭
◾ Effects of cross-linking molecular weights in a hyaluronic acid - poly(ethylene oxide) hydrogel network on its properties, BIOMEDICAL MATERIALS, vol.1 pp.116~123, 2006노인섭
◾ 다공성 젤라틴-ePTFE 지지체의 인공혈관으로의 적용 가능성 평가, 생체재료학회지, vol.10 No.2 pp.67~73, 2006노인섭
◾ Media 조직이 재생된 하이브리드 인공혈관의 평가, 조직공학재생의학지(Tissue Engineering and Regenerative Medicine), 2006노인섭
◾ effects of molecular weights in hyaluronic acid-poly(ethylene ox, biomedical materials, vol.342-343 No.342-343 pp.765~768, 2006노인섭
◾ Fabrication of Poly(lactide-co-glycolide) Vascular Scaffolds Locally Loaded with Bioactive Molecules, 생체재료학회지, vol.9 No.4 pp.198~204, 2005노인섭
◾ Evaluations of blood compatibility via protein adsorption treatment of the vascular scaffold surfaces fabricated with polylactide and surface-modified expanded polytetrafluoroethylene for tissue engin, JOURNAL OF BIOMEDICAL MATERIALS RESEARCH PART A, vol.75A pp.824~831, 2005노인섭
◾ 생체활성물질 고정화 기술을 이용한 인공혈관 개발 및 임상적용-보건복지부 2005 바이오장기센터 워크샵, 2005노인섭
◾ 아크릴아미도글라이콜산 그라프팅을 이용한 키토산-폴리에틸렌옥사이드 하이드로젤과의 합성 화학, Journal of Chitin and Chitosan, vol.10 No.3 pp.128~133, 2005노인섭
◾ Media tissue regeneration of the hybrid expanded polytetrafluoroethylene vascular graft via gelatin coating, CURRENT APPLIED PHYSICS, vol.5 pp.463~467, 2005노인섭
◾ Influence of heat treatment on biological properties of chitosan toward vascular cells in vitro, MACROMOLECULAR SYMPOSIA, vol.224 pp.263~273, 2005노인섭
◾ 쥐의 골수로부터 추출한 줄기세포를 이용한 조골세포로의 분화 유도과정에서 나타난 문제점에 관한 분석 연구, 대한악안면성형재건외과학회지, vol.27 No.1 pp.1~8, 2005노인섭
◾ 사람의 골수 줄기 세포로부터의 골세포 분화 과정에서 BMP-2가 미치는 영향과 그에 따른 분화 유전자의 발현 비교 연구, 대한악안면성형재건외과학회지, vol.27 No.1 pp.16~23, 2005노인섭
◾ vascular tissue regeneration of the hybrid ePTFE graft for adult patients, vol.288 No.288 pp.55~58, 2005노인섭
◾ smooth muscle cell ingrowth of a surface-modified ePTFE vascular graft, vol.289 No.289 pp.367~372, 2005노인섭
◾ Vascular tissue regeneration of the hybrid ePTFE graft for adult patients, ASBM6, vol.288-289 pp.55~58, 2005노인섭
◾ Smooth muscle cell ingrowth of a surface-modified ePTFE vascular graft, ASBM6, vol.288-289 pp.367~370, 2005노인섭
◾ Fabrications and Characterizations of the Porous Gelatin-Chitosan Scaffolds, vol.10(1) No.10(1), 2004노인섭
◾ Characterizations of the Porous Gelatin-Chitosan Hybrid Scaffolds for Improved Smooth Muscle Cellula, vol.8(4) No.8(4) pp.263~268, 2004노인섭
◾ Development of a coating method on a porous poly(lactide-glycolide) copolymer scaffold by natural po, vol.9(2) No.9(2) pp.61~67, 2004노인섭
◾ 폴리락타이드-글리콜라이드 공중합체로 제조된 다공성 지지체 상의 천연고분자 코팅과 평가, J. of Chitin and Chitosan, 2004노인섭
◾ 인공장기와 우리생활, vol.2004.3.봄호 No.2004.3.봄호 pp.35~40, 2004노인섭
◾ Carboxyalkyl chitosan 유도체의 금속이온 흡착특성, vol.9(1) No.9(1) pp.31~34, 2004노인섭
◾ Development of microbead-baed scaffold and ePTFE-biodegradable hybrid scaffold for vascular grafts, pp.92~92, 2002노인섭
◾ 조직공학제품의 현황과 미래, vol.6(2) No.6(2) pp.33~37, 2002노인섭
◾ Mechanisms of platelet adhesion on elastic polymer surfaces: protein adsorption and residence effect, vol.9 (4) No.9 (4) pp.197~205, 2001노인섭
◾ 표면개질된 폴리테트라플르오르에틸렌 필름표면의 세포부착에 관한 연구, vol.51 No.51 pp.251~258, 2000노인섭
◾ 단백질 용액을 흡착시킨 고분자 표면상의 혈소판 상호작용에 관한 연구, vol.51 No.51 pp.259~266, 2000노인섭
◾ 인공혈관 생체재료, vol.4(1/2) No.4(1/2) pp.72~86, 2000노인섭
◾ Mechanisms of heparin transport through expanded polyItetrafluoroethylene) vascular grafts, vol.49권 No.49권 pp.112~119, 2000노인섭
◾ 조직공학에 의한 인공혈관, vol.10권6호 No.10권6호 pp.751~762, 1999노인섭
◾ Chemical modification and photograft polymerization upon expanded poly(tetrafluoroethylene), vol.9(5) No.9(5) pp.407~426, 1998노인섭
◾ surface modification of poly(tetrafluoroethylene) with benzophenone and sodium hydride by ultraviole, J. Polym. Sci. Polym. Chem., vol.35 No.35 pp.1499~1514, 1997노인섭
◾ acrylate monomers PTFE, J. Polym Sci. Polym Chem., vol.35 No.35 pp.3467~3482, 1997노인섭
학술대회
8) Co-Chair, 11th World Biomaterials Congress, Plenary Session "A novel 3D printing approach for structured microenvironments and defined cell behaviour”, Glasgow, Scotland, 2020.12.11-15
8) 한국고분자학회 2020 가을정기학술대회, Effects of molar ratios of two immiscible monomers towards development of amphiphilic, highly stretchable, bio-adhesive, self-healing co-polymeric hydrogel and its mineral-active cellular behavior (2020.10.06. 온라인)
7). 한국생체재료학회 교육심포지엄 “Hydrogels for 3D printing bioinks”, (2020.11.04. 온라인)
6). 생체의료용 하이드로젤의 기초와 응용, 한국고분자학회 신기술강좌, 부산, 2019.04, Korea


5) Keynote Speaker : 29th European Conference on Biomaterials, September 9-13, 2018, Maastricht, Netherland, http://www.esb2018maastricht.org/programme/keynote_speakers

4)Invited Speaker: Biomaterials International July 22-26,2018, Toyko, Japan
http://www.biomaterials.tw/

3) Keynote Speaker: International Symposium of Biotechnology on Biomaterials, Stem Cell and Tissue Engineering (ISBBST), November 14-18, 2018 at Chengdu and Guangyuan, China

2) Invited Speaker: China-Korea Joint Symposium of Biomimetic Medical Materials, Oct 25-29,2018,Xian, China

1) 금요일 과학터치 (2017-08-04), 서울정독도서관, 3D 바이오프린팅 생체재료

Recent
1. Quantitative Analysis of the Metabolite Changes of Tumor Cell Using 19f Nuclear Magnetic Resonance Spectroscopy (mrs) at 9.4t, In Ok Ko, Ki-Hye Jung, KyungJun Kang, Yong Jin Lee, SangMoo Lim, Insup Noh, Ji-Ae Park, 6th Asia-Pacific Symposium on Radiachemistry, 17-22, 09, 2017, Jeju Island, Korea
2. Biofunctionality of Alginate-α-Tricalcium Phosphate Nano/Micro Particle Hybrid Film with Flexibility and High Mechanical Property, Dipankar Das, Yun-Jeong Yang, Sumi Bang, JiYun Yu, Insup Noh(invited speaker), ChinaNANO 2017 (Nanobiotechnology and Nanomedicine session), Aug 29-31, 2017, Beijing, China.
3. Asia Pacific Society for Materials Research(APSMR) Annual Meeting 2017, Hokaido, Japan, 2017-07-26-30, Dipankar Das, Yoonjeong Yang, Wonseog Choi, Sumi Bang, Insup Noh(* Co-organizer, Session Chair)
4. Development of Flexible Hybrid Biomaterials with Mechanical Properties for Tissue Engineering. Dipankar Das, Sumi Bang, Insup Noh, Davos, Swiss, 2017 June 26-30, TERMIS-EU (초록, 좌장, 심포지아 organizer)
5. Alginate-α-tricalcium phosphate hybrid materials with controlled properties and cell responses to environments for tissue engineering, Insup Noh (Keynote Speaker), International Symposium on Biotechnology on Biomaterials, Stem cells and Tissue Engineering (2017 ISBBST). August 20-22, 2017, Msgr. Fahy Memorial Building, Fu Jen Catholic University, New Taipei City, Taiwan,
6. Hybrid biomaterials analysis of alginate-alpha-tricalcium phosphate hydrogel for 3D printing tissue engineering, 2017 ICMSE & ASBMRM, 2nd Asian Symposium on Biofunctional Materials and Regenerative medicine, Insup Noh (Invited Speaker) - 2017-09-24, Hangzhou, China
7. 3rd World Congress on Mateirals Science & Engineering, August 24-26, 2017 at Barcelona, Spain (Organizing committee)
1. Evaluation of Hyaluronic Acid-Chondroitin Sulfate Hydrogel Contaning Platelet-Rich Plasma for Cartilage Restoration,Ah Ram Kim, Hyo Seung Park, Beom Chul Kim, Eun Kyung Shin, Soo Yeon Lee, Insup Noh, ICRBM 2013 Conference ,2013.06.02.-06.06. Wuhan, China,
2. Patterned Hyaluronic Acid Hydrogel for Tissue Engineering, Ahram Kim, Hyoseung Park, Sumi Kim, Suyeon Lee, Seungjin Oh, Bumchul Kim and Insup Noh , Nano Korea 2013, 2013.07.10. Coex, Seoul, Korea.
3. Poly(ethylene glycol Coating on the Polyethylene surface for prevention of biofilm Formation, SeungjinOh, BumchulKim, SuyeonLee, HyoseungPark, AhramKim, KwangsooLee, Hyunji Lee, Hyenwoo Byeon, Yungyeong Gu, Iae jun Song, Sung Min Kim, Dong Keun Han and Insup Noh , AESPE (20130825)August 15-30, 2013 Ramada Plaza Jeju Hotel , Jeju, Korea
4. Poly(ethylene glycol Coating for Reduction of Bacterial Adhension on Poly(dimethyl Siloxane)Substrate for Its applications in ventilation tubes, Seungjin Oh, Bumchul Kim, Suyeon Lee, Hyoseung Park, Ahram Kim, Kwangsoo Lee, Hyunji Lee, Hyenwoo Byeon, Yungyeong Gu, Iae jun Song, Sung Min Kim, Dong Keun Han and Insup Noh , AESPE (20130825)August 15-30, 2013 Ramada Plaza Jeju Hotel , Jeju, Korea
5. Effects of Cross-Linking Spacers on Nerve Cell Biocompatibility of Chitosan -Poly(ethylene oxide) Hydrogel, Hyoseung Park, Aram Kim, Sumi Bang, Sumi Kim, Eunkyung Shin and In-Sup Noh, The 7th World Congress on Biomimetics, Artificial Muscles and Nano-Bio (BAMN2013), Jeju, Korea, 2013/08/26-2013/08/30
6. Evaluation of Hyaluronic Acid-Chondroitin Sulfate Hydrogel Containing Platelet-Rich Plasma for Cartilage Restoration, Ah Ram Kim, Hyo Seung Park, Beom Chul Kim, Eun Kyung Shin, Soo Yeon Lee, Insup Noh, International Conference on Regenerative Biomedical Materials, International Conference on Regenerative Biomedical Materials, 2013/06/02-2013/06/06,
7. Synthesis and Evaluation of Injectable Hyaluronic Acid-Chondroitin Sulfate Hydrogel Containing Platelet-Rich Plasma for Cartilage Regeneration, Aram Kim, Eunkyung Shin, Myoung Chul Lee, Sung Soo Kim, Insup Noh, Auckland, New Zealand, 2013/12/08- 2013/12/13,
◾ Dipankar Das, Hana Cho, In Gul Kim, Eun-Jae Chung, Gopinathan Janarthanan, Insup Noh, Hyaluronic acid and gelatin methacryloyl Gel linked using hydroxyethyl acrylate for tissue regeneration (PO-44), 2020년 한국생체재료학회 추계학술대회, 온라인, 2020노인섭
◾ Mamatha M. Pillai, Hao NguyenTran G. Sathishkumar K.Manimekalai, JeongHyun Yoon, DaYoung Lim, Amitava Bhattacharyyaa, Gopinathan Janarthanan, Insup Noh, 3D printing of bacteria-yeast cellulose pellicle, 2020년 한국생체재료학회 추계학술대회, 온라인, 2020노인섭
◾ Gopinathan Janarthanan, Hao NguyenTran, Eunchong Cha, Chibum Lee, Dipankar Das, Insup Noh, Carboxymethylcellulose(CMC)-glycol-chitosan gels for 3D bioprinting (PO-119), 2020년 한국생체재료학회 추계학술대회, 온라인, 2020노인섭
◾ Dipankar Das, Eunchong Cha, Hyun Soo Shin, Gopinathan Janarthanan, Insup Noh, Acrylic Acid and Methyl Methacrylate Molecular Interactions Form Self-healing, Stretchable, and Adhesive Co-Polymeric Hydrogel for Tissue (PO-43), 2020 한국생체재료학회 추계학술대회, 온라인, 2020노인섭
◾ Gopinathan Janarthanan, Hyun Soo Shin, In-Gul Kim3, Pyung Ji, Eun-Jae Chung, Chibum Lee, Insup Noh, Hyaluronic acid(HA)-Carboxymethylcellulose(CMC) Based Bioinks for Tissue Engineering(PO-118), 2020년 한국생체재료학회 추계학술대회, 온라인, 2020노인섭
◾ 노인섭, Hydrogels for 3D printing bioinks, 2020년 한국생체재료학회 교육심포지엄, 온라인, 2020노인섭
◾ Dipankar Das, Eunchong Cha, Sangji Lee, HyunSoo Shin, and Insup Noh, Highly Stretchable Self-healing Co-polymeric Gel Controlled by Molecular Interactions Between Acrylic Acid and Methyl Methacrylate, 2020년 고분자학회 추계학술대회, 온라인, 2020노인섭
◾ Insup Noh, Controlled Hyaluronate-based Terpolymeric Hydrogels Developed Through FreeRadical Polymerization and Its 3D Bioprinting Ability for Tissue Engineering andDrug Delivery, ABC & ISMBA 2019 conference, 대만, 2019노인섭
◾ 노인섭, 바이오잉크 하이드로젤, The 9th Young Scientist Forum & Tutorial, 동국대학교 일산, 2019노인섭
◾ Insup Noh, Hyaluronic acid based functional hydrogels for biomedical materials, Korea-China Joint Symposium on Biomimetic and Regenerative medical materials, Jeju Island, 2019노인섭
◾ Dipankar Das1,2, Janarthanan Gopinathan1,2, Nahye Kim1,2, In Gul Kim3, Eun-Jae Chung3, Insup Noh1,2,*, Ter-polymeric hyaluronate-hydroxyethyl acrylate-gelatin methacryloyl hydrogels for drug delivery and cartilage tissue engineering applications, 한국생체재료학회 추계학술대회, 차의과학대학, 2019노인섭
◾ 고피나탄, 하오, 이재후, 이치범, 노인섭, tunable rheology and high biocompatibility of hyaluronate-hydroxyethyl acrylate-gelatin mehtacrylol terpolymeric hydroges for 3D bioprinting applications, 한국생체재료학회 추계학술대회, 차의과학대학, 2019노인섭
◾ Dipankar Das, Janarthanan Gopinathan, Seongho Lee and Insup Noh, Novel terpolymeric pH responsive polysaccharide based hydrogels for drug delivery applications, 한국생체재료학회 추계학술대회, 차의과학대학, 2019노인섭
◾ Dipankar Das, Janarthanan Gopinathan and Insup Noh, Biocompatible hyaluronate-based terpolymeric hydrogel developed using free radical polymerization for tissue engineering applications, 한국생체재료학회 추계학술대회, 차의과학대학, 2019노인섭
◾ Janarthanan Gopinathan, In Gul Kim, Eun-Jae Chung and Insup Noh, Surface modification of polycaprolactone scaffolds with α-tricalcium phosphate, gelatin and fibronectin and it’s in vitro evaluation of mesenchymal stem cell attachment and proliferation, 한국생체재료학회 추계학술대회, 차의과학대학, 2019노인섭
◾ Insup Noh, Hyaluronic acid based hydrogel for tissue engineering application, 2019 International Symposium of Biotechnology on Biomaterials, Stem cells, and tissue engineering, 중국 쉔양, 2019노인섭
◾ Insup Noh, Design of new terpolymeric hydrogel for medical applications, ICRBM2019, 우한, 2019노인섭
◾ Dipankar Das, Seongho Lee and Insup Noh, Alginate based biocomptible, stimuli responsive hydrogels for delivery of 5-amino salicylic acid and bovine serum albumin, 2019년 한국생체재료학회 춘계 학술대회 발표논문집, 광주, 2019노인섭
◾ Dipankar Das, Hana Cho, Nahye Kim, In Gul Kim, Eun-Jae Chung, Insup Noh, Synthesis and characterization of terpolymeric hyaluronate-hydroxyethyl acrylate-gelatin methacryloyl hydrogel for biomedical applications, 2019 한국생체재료학회 봄 학술대회 발표논문집, 광주, 2019노인섭
◾ Dipankar Das, Thi Thu Hien Pham, HyunSoo Shin, and Insup Noh, Synthesis and characterizations of hyaluronate-based terpolymeric hydrogel synthesized via free radical polymerization for tissue engineering application, 2019년 한국생체재료학회 봄 학술대회 발표논문집, 광주, 2019노인섭
◾ Janarthanan Gopinathan, In Gul Kim, Eun-Jae Chung and Insup Noh, In vitro evaluation of mesenchymal stem cells on polycaprolactone based scaffolds containing α-tricalcium phosphate, gelatin and fibronectin, 2019년 한국생체재료학회 봄 학술대회 발표논문집, 광주, 2019노인섭
◾ Tran Nguyen Hao, Nahye Kim, Jaehoo Lee, Chibum Lee and Insup Noh1, 3D Bioprinting of Hyaluronic Acid-based Terpolymeric Hydrogel for Tissue Engineering applications, 2019년 한국생체재료학회 춘계학술대회, 광주, 2019노인섭
◾ Insup Noh, Mechanical strength enhanced terpolymeric polysaccharide hydrogel by using hydroxyethyl acrylate for tissue engineering and 3D printing, 2018 China-Korea Symposium on Biomimetic and Regenerative Biomedical Materials, 중국 시안, 2018노인섭
◾ J Gopithan, M Pillar, S Gananpoongotha, BKD Rai, KS Sahanand, R Shattacharyya, Insup Noh, Carbon nanofiber imcorporated electrically conductive 3D polymeric scaffolds with nank-honeycomb garland structures for human cartilage tissue engineering, 2018년 한국생체재료학회 추계학술대회, 판교, 2018노인섭
◾ Dipankar Das, Tran N. Hao, Kang Cheol, Insup Noh, Bioactive drug release and osteoblast cells behaviors from micrpattern gel, 2018년 한국생체재료학회 추계 학술대회 및 총회, 판교, 2018노인섭
◾ Dipankar Das, Eunchong Cha, Nahye Kim, Tran N Hao, Insup Noh, Development and analysis of hyaluronate based terpolymeric hydrogels for biomedical applications, 2018 한국생체재료학회 추계학술대회, 판교, 2018노인섭
◾ Dipankar Das, Tran N Hao, J Gophanthan, Insup Noh, Alginate-TCP based ionically crosslinked hybrid hydrogel for tissue engineering and 3D printing applications, 2018년 한국생체재료학회 추계학술대회, 판교 차바이오텍, 2018노인섭
◾ Dipankar Das, Thi Thu Hien Pham, Eunjae Chung and Insup Noh, Control of properties of hyaluronate based terpolymeric hydrogel for biomedical applications, The 29th Annual Meeting of the European Society for Biomaterials, 네덜란드 마스트리히드, 2018노인섭
◾ Dipankar Das, Insup Noh, Synthesis and characterizations of hyaluronic acid based hydrogels as smart biomaterials, Biomaterials International 2018, 일본 동경대, 2018노인섭
◾ Kang Cheol, Dipankar Das, Tran Nguye Hao, Insup Noh, MC3T3 cells behaviros and bioactive drug release from functionalized hyaluronate-based micro-patterned gel, 19th International Annual Meeting of Korean Tissue Engineering and Regenerative medicine Society, KIST, 2018노인섭
◾ Dipankar Das, Cheol Kang, Insup Noh, Characterizations of alginate-ceramic particles hybrid biomaterial for tissue engineering applications via 3D printing, 19th International Annual Meeting of Korean Tissue engineering and Regenerative medicine Society, KIST, 2018노인섭
◾ Dipankar Das, 방수미, 노인섭, Dextran-Poly(methyl methacrylate) nanogel for dural drugs carrier and anticancer drug delivery, 2018 춘계학술대회, 대전컨변션센터, 2018노인섭
◾ Dipankar Das, Jae Keun Park, Hao Nguyen Tran and Insup Noh, Osteoblast Cell Proliferation and Drug Release Study from Patterned Hyaluronate Gel (P-78), 2018년 한국생체재료학회 춘계학술대회, 부산대학교, 2018노인섭
◾ Dipankar Das and Insup Noh, Functionalized Dextrin Based Nanogel for Targeted Delivery of Doxorubicin Hydrochloride(PO-77), 2018년 한국생체재료학회 춘계학술대회, 부산대학교, 2018노인섭
◾ Dipankar Das, and Insup Noh, Biodegradable Dextrin-Polylactide Nanogel for Delivery of Anticancer Drug(PO-76), 2018년 한국생체재료학회 춘계학술대회, 부산대학교, 2018노인섭
◾ Dipankar Das, Hao Nguyen Tran, Cheol Kang, and Insup Noh, Alginate-α-Tricalcium Phosphate Based Biomaterial for Tissue Engineering and 3D-Bioprinting(PO-03), 2018년 한국생체재료학회 춘계학술대회, 부산대학교, 2018노인섭
◾ 4, Fabrication of Functionalized Hyaluronate-based Terpolymeric Hydrogel for Bioactive molecules release and Tissue Engineering (PO-2), 2018년 한국생체재료학회 춘계학술대회, 부산대학교, 2018노인섭
◾ 노인섭, 조직공학용 기능성 하이드로젤의 현황, 2017년 제8차 한국조직공학재생의학회-GSRAC 공동교육심포지엄, 서울 카톨릭대학교, 2017노인섭
◾ Insup Noh, Release of bioactive molecules from alginate hydrogel containing TCP particle for 3D printing system, 2017 Korea-China Symposium on Biomimetic and Regenerative Medical Materials, 광주과학기술원, 2017노인섭
◾ Insup Noh, Release of bioactive molecules from alginate hydrogel containing TCP particle for 3D printing system, Korea-China Symposium on Biomimetic and Regenerative medical materials, 광주, 2017노인섭
◾ Sanjin Han, Ji Woong Lee, Un Chul Shin, Hyun Park, Ji-Ae Park, Jae Yong Choi, Ko Chul Lee, Insup Noh, Approach to chemically automatic production of Zr-89 for clinic use in nuclear medicine, 56차 대학핵의학회 추계학술대회 및 총회, 분당서울대병원 헬스케어혁신파크, 2017노인섭
◾ 노인섭, 조직재생속도조절이 가능한 히알론산 젤입자제조기술, NTB 기술이전 설명회(제3차 : 바이오·헬스), 삼성도 코엑스, 2017노인섭
◾ 노인섭, 탄성 및 기계적 물성이 우수한 하이브리드 필름제조기술, 4차 산업혁명 및 신산업육성을 위한 NTB 기술이전 설명회, 서울 삼성동 코엑스, 2017노인섭
◾ Insup Noh, Introduction to polymeric 3D printing biomaterials for tissue engineering applications, 한국생체재료학회 국제학술대회-추계학술대회, 판교 차의과학대, 2017노인섭
◾ Dipankar Das and Insup Noh, Sodium alginate-ceramic particles based biomaterials for bone tissue engineering and 3D biprinting, 한국생체재료학회 추계학술대회, 판교, 2017노인섭
◾ Dipankar Das and Insup Noh, Dextrin-poly(methyl methacrylate) microgel for controlled drug delivery, 한국생체재료학회 추계학술대회, 판교, 2017노인섭
◾ Dipankar Das and Insup Noh, Biocompatible nanogel derived from functionalized dextrin for targeted delivery of doxorubicin hydrochloride to MG 63 cancer cells,, 한국생체재료학회 추계학술대회, 판교, 2017노인섭
◾ Dipankar Das and Insup Noh, Dextrin-poly(HEMA) crosslinked hydrogel for ciprofloxacin hydrochloride delivery, 한국생체재료학회 추계학술대회, 판교, 2017노인섭
◾ Dipankar Daqs and Insup Noh, MC3T3 cells proliferation and drug release study from sodium hyaluronate-1,4-butanediol diglycidyl ether patterned gel, 한국생체재료학회 추계학술대회, 판교, 2017노인섭
◾ Drug, Dipankar Das and Insup Noh, Biomaterial derived from alginate and ceramic particles for bone tissue engineering and 3D-bioprinting, 한국고분자학회 추계학술대회 연구논문초록집, 제주, 2017노인섭
◾ Dipankar Das and Insup Noh, Biocompatible Dextrin-crosslinked-poly(lactide) Nanogel for Delivery of Anticaner Drug, 한국고분자학회 추계학술대회 연구논문초록집, 제주도, 2017노인섭
◾ Insup Noh, Synthesis and evaluations of functional hybrid films with mechanical properties and flexibility for tissue engineering, The 1st International Conference on Material Science and Engineering & the 2nd Asian Symposium on Bi, 중국 항조우, 2017노인섭
◾ Insup Noh, Biofunctionality of Alginate-α-Tricalcium Phosphate Nano/Micro Particle Hybrid Film with Flexibility and High Mechanical Property, ChinaNano2017, 베이징, 2017노인섭
◾ Insup Noh, Alginate-α-tricalcium phosphate hybrid materials with controlledproperties and cell responses to environments for tissuengineering, 2017 International Symposium of Biotechnology on Biomaterials, Stem cells and Tissue Engineering, 대만 Chateau de Chine Hotel Sinjhuang, 2017노인섭
◾ Insup Noh, Development of flexible hybrid films for tissue engineering, TERMIS-EU 2016, 스위스 다보스, 2017노인섭
◾ 노인섭, 3D 바이오프린팅소재 개발현황, 대한메디칼 3D프린팅학회(대한정형외과연구학회), 서울대학교병원, 2017노인섭
◾ Dipankar Das, Sumi Bang, Insup Noh,, Dextrin-poly(methyl methacrylate) microgel for dual drugs carrier and anticancer drug delivery, 춘계학술대회, KAIST, 2017노인섭
◾ Dipankar Das, 방수미, 노인섭, Dextrin-poly(methyl methacrylate) nanogel for dual drugs carrier and anticancer drug delivery, 2017 춘계학술대회, 대전, 2017노인섭
◾ Wonseok Choi, Sumi Bang, Dipankar Das, Insup Noh, Click chemistry-based chondroitin sulfate-gelatin hydrogel for tissue engineering, 2017 한국생체재료학회 춘계 학술대회, 대전, 2017노인섭
◾ Dipankar Das, Harie Kim and Insup Noh, BIODEGRADABLE DEXTRIN-POLYLACTIDE NANOGEL FOR DELIVERYOF ANTICANER DRUG (PO-94), 춘계학술대회, KAIST, 2017노인섭
◾ Dipankar Das, Harie Kim and Insup Noh, DEXTRIN CROSSLINKED WITH POLY(HEMA): AN EFFICIENT HYDROGEL FOR DELIVERY OF CIPROFLOXACIN HYDROCHLORIDE, 한국생체재료학회 춘계학술대회, KAIST, 2017노인섭
◾ Wonseok Choi, Sumi Bang, Dipankar Das, Insup Noh, 3D printing of polycarprolactone for tissue engineering(PO-175), 2017 한국생체재료학회 춘계 학술대회, 대전, 2017노인섭
◾ Wonseok Choi, Sumi Bang, Dipankar Das, Insup Noh, Characterization of chondroitin sulfate gel by thiol-ene reaction for tissue engineering, 2017 한국생체재료학회 춘계 학술대회, 대전, 2017노인섭
◾ Wonseok Choi, Sumi Bang, Dipankar Das, Insup Noh, Click chemistry-based chondroitin sulfate gelatin hydrogel for tissue engineering (PO-176), 2017년 한국생체재료학회 춘계학술대회, 대전 KAIST, 2017노인섭
◾ Insup Noh, Introduction to Biomateirals, The 6th Young Scientist Forum and Tutorial 2016, 차의과학대학, 2016노인섭
◾ Dipankar Das, Sumi Bang, Insup Noh, Synthesis and Evaluation of Biomimetic Flexible Hybrid Biomateirals for Tissue Engineering, 2016 China-Korea Symposium on Biomimetic and Regenerative Medical Materials, 중국 쳉두, 2016노인섭
◾ Insup Noh, Sumi Bang, Kyu-Eon Kim, Jae-Hoo Lee, Chi-Bum Lee, Sung Soo Kim, In Situ Hybrid Biomateiral for 3D Bioprinting and Its Evaluation for Bone and Cartilage Regeneration -구두발표, IUPAC_PSK40, 제주도, 2016노인섭
◾ Sumi Bang, Ji Hyun Kim, Yoon Jeong Yang, Myung Chul Lee, Sung-Soo Kim, Sung Jae Lee and Insup, Comparison of the Effects of Platelet Rich Plasma on Cartilage and Bone Tissue Regeneration of Glcosaminoglycan Hydrogel, The 14th International Conference on Frontiers of Polymers and Advanced Materials, 대전, 2016노인섭
◾ Sumi Bang, Kyueon Kim, Jaehoo lee, Dong-Ki Lee, Yoon Jeong Yang, Hoon Choi, Chibum Lee, Young Hak, C, Polymer-ceramic hybrid gel in 3D bioprinting applications, 2016년 한국생체재료학회 추계학술대회 겸 20주년 기념 국제 심포지엄, 한국과학기술연구원, 2016노인섭
◾ 노인섭,방수미,Le Tuyen Nguyen, 김규언, 이재후, 이동기, 이치범, 조영학,김성, In Situ Polymer-ceramic hybrid hydrogel for 3D printing applications, European Chapter Meeting of the Tissue Engineering&Regenerative Medicine International Society 2016, uppsala, Sweden, 2016노인섭
◾ Insup Noh, A review and perspective of China-Korea Cooperation on Biomaterials, Nano-biotechnology and regenerative medicine, China-Korea Science Cooperation Forum 2016, 중국 시안, 2016노인섭
◾ 방수미, 김지현, 노인섭, Evaluations of Hydrogels of Cellulose - Poly(Ethylene Oxide)and Chondroitin Sulfate-Poly(Etheylene Oxide) for Tissue Engineering, 제 17차 한국조직공학 재생의학회 학술대회, 이화여자대학교, 2016노인섭
◾ 방수미,이중석,정의원,최성호,유훈, 노인섭, Evaluations of Hyaluronic acid hydrogel-reinforced three-layer poly(lactide-co-glycolide) membrane, 제 17차 한국조직공학 재생의학회 학술대회, 이화여자대학교, 2016노인섭
◾ Sumi Bang, Le Tuyen Nguyen, Insup Noh, Evaluation of in situ chondroitin sulfate-gelatin hydrogel synthesized by click chemistry, 2016 10th World Biomaterials Congress, Montreal, Canada, 2016노인섭
◾ 노인섭, 3D 프린팅용 의료용 고분자, 2016 고분자 신기술강좌, 대전 컨벤선센터, 2016노인섭
◾ 방수미, Le Tuyen Nguyen, 노인섭, Synthesis Self Crosslinked Chondroitin Sulfate-Gelatin Hydrogel, 2016년 한국생체재료학회 춘계 학술대회, 경북대학교, 2016노인섭
◾ 방수미, 응웬 레 뚜이엔, 김규언, 이재후, 이동기,이치범, 조영학, 김성수,노인섭, 3D bioprinting materials for bone-blood vessel tissue regeneration, 2016년 한국 생체재료학회 춘계 학술대회, 경북대학교, 2016노인섭
◾ Sumi Bang, Dian Purwita Sari, LeTuyen Nguyen, Insup Noh, Effects of Nano/Micro-Patterned Hydrogels and Nano/Micro Gel Particles on Bone Tissue Engineering, International Conference on Biomedical Application of Nanomaterials, City University of Hong Kong, Hong Kong, 2015노인섭
◾ Sumi Bang, Dian Purwita Sari, Le Tuyen Nguyen, Dong-Ki Lee, Young-Hak Cho, Insup Noh, Fabrications of Nano/Micro-Patterning Biomaterials for Bone Tissue Engineering, 2015 Korea-China Joint Symposium on Biomimetic Medical Materials, 서울과학기술대학교 무궁관, 2015노인섭
◾ 방수미, Dian Purwita Sari, Le Tuyen Nguyen, 노인섭, Biocompatibility Screening of Modified Polymers for Tissue Regeneration Application, 2015 추계학술대회 연구논문 초록집, 대구컨벤션센터, 2015노인섭
◾ Sumi Bang, Dian Purwita Sari, Le Tuyen Nguyen, Sung Hyun Lee, Insup Noh, Osteoblast Cell Behavior on the Surface of Micro-Patterned Hydrogel and in the Drug Circumstance, 2015년 한국생체재료학회 추계 학술대회, CHA BIO Complex (판교), 2015노인섭
◾ Sumi Bang, Dian Purwita Sari, LeTuyen Nguyen, Insup Noh, Evaluations of micro/nano-based hyaluronic acid hydrogel in tissue engineering, The 6th International Conference on Nanoscience & Technology, Scientific Program, National Center for Nanoscience and Technology, 2015노인섭
◾ Sumi Bang, Le Tuyen Nguyen, Dian Purwita Sari, Su Yeon Lee, Sumi Kim, Seong Yeon Jo, Insup Noh, Synthesis and In Vitro Characterizations of Porous Carboxymethyl Cellulose-Poly(ethylene oxide) Hydrogel Film, The 16th International Annual Meeting of Korean Tissue Engineering and Regenerative Medicine Society, Seoul St.Mary's Hospital, Seoul, Korea, 2015노인섭
◾ 방수미, 노인섭, 히알루론산 하이드로젤의 마이크로/나노 패턴 유도와 평가, 2015 춘계학술대회 연구논문 초록집, 대전컨벤션센터, 2015노인섭
◾ Sumi Bang, LeTuyen Nguyen, Dian Purwita Sari, Su Yeon Lee, Sumi Kim, Seong Yeon Jo, Insup Noh, Synthesis and in vitro Characterizations of Porous Carboxymethyl Cellulose-Poly(ethylene oxide) Hydrogel Film, 2015 한국생체재료학회 제10차 춘계학술대회, 경북대학교 글로벌 플라자, 2015노인섭
◾ Insup Noh, SY Lee, HJ Lee, SM Bang, Fabrications of Hyaluronic Acid Hydrogel for Tissue Engineering, 2014 China-Korea Symposium on Biomimetic and Regenerative Medical Materials, Wuhan, China, 2014노인섭
◾ Insup Noh, Su Yun Lee, Hyunji Lee, Hyoseong Park, Miae Yoo, Sung-Chul Choi, Development of Injectable Hydrogel for Regeneration of Bone and Cartilage, WCPRM2014(7th World Congress on Preventive and Regenerative Medicine), Chientan Youth Activity Center, Taipei, Taiwan, 2014노인섭
◾ 최성철,우미애,이수연,이현지,응웬탄콰,손동훈,정제시카,노인섭,김찬와, EFFECTS OF BUTANEDIOL DIGLYCIDYL ETHER CROSSLINKING AGENTS ON BIOMECHANICAL PROPERTIES OF HYALURONIC ACID HYDROGELS, 2014 한국생체재료학회 제22차 추계학술대회, 한국과학기술회관, 2014노인섭
◾ 이현지,노인섭, 필름 형태의 히알루론산-카르복실 메틸 셀룰로오스 하이드로젤 제조 및 평가, 2014년 한국생체재료학회 제22차 추계 학술대회, 한국과학기술회관, 2014노인섭
◾ Su Yun Lee, Hyunji Lee, Hyoseong Park, Miae Yoo, Sung-Chul Choi, Insup Noh, Development of Injectable Hydrogel for Regeneration of Bone and Cartilage, 7th World Congress on Preventive and Regenerative Medicine (7th WCPRM), Taipei, 2014노인섭
◾ 노인섭, Development of injectable hydrogel for regeneration of bone and cartilage, 7th World Congress of Preventive and Regenerative Medicine, Chientan Youth Activity Center, 2014노인섭
◾ 이수연,이현지,최지영,윤현식,노인섭, Evaluation of Micro-patterned Hyaluronic Acid Hydrogel, International Conference on Thin films 16th, 크로아티아, Libertas Rixos Hotel Dubrovnik, 2014노인섭
◾ 최지영,최성철,우미애,손동훈,정제시카,이수연,이현지,노인섭,김찬와, Rheological And Anti-inflammatory Properties Of Hyaluronic Acid Hydrogel, TERMIS-AP-2014, 대구, EXCO, 2014노인섭
◾ 이수연,이현지,최지영,윤현식,노인섭, Evaluation of Micro-patterned Hyaluronic Acid Hydrogel, TERMIS-AP-2014, 대구, EXCO, 2014노인섭
◾ Orthopaedic Biomaterials: Hydrogela, 제 40차 대한정형외과연구학회 학술대회, 2014노인섭
◾ Insup Noh, 정형외과 연구에 있어서의 생체재료학 : 하이드로젤재료, 2014년 제 40차 대한정형외과연구학회 학술대회, 가톨릭대학교 서울성모병원 대강당, 2014노인섭
◾ Insup NOH, Evaluation of Tissue Regeneration by in situ Hyaluronic Acid-chondroitin Sulfare Hydrogel with Platelet Rich Plasma, The 1st asian forum on biofunctional materials and regenerative medicine, Hangzhou Shujiang Hotel, 2014노인섭
◾ 미래 의료기기 적용을 위한 줄기세포 응용, 2014 미래창조과학부 세포재생기술개발사업 줄기세포와 스텐트 융합기술 전, 2014노인섭
◾ 노인섭, 권일근, 이해신, 김원종, 박근, 미래 의료기기 적용을 위한 줄기세포 응용 기술, 미래창조과학부 새포재생기술개발사업 줄기세포와 스텐트 융합기술 전문가 청 워크샵, 제주 그랜드호텔, 2014노인섭
◾ 이수연,신철호,황윤재,육종인,김션실,장태안,김정문,노인섭, 비활성 폴리펩타이드 골형성 단백질이 로딩된 히알루론산 다공성 지지체 제조 및 in vitro 골세포 배양평가, 제9차 한국생체재료학회 학술대회, 전남대학교, 2014노인섭
◾ Insup Noh, Synthesis and Evaluation of Injectable Hyaluronic Acid-Chondroitin Sulfate Hydrogel Containing Platelet-Rich Plasma for Cartilage Regeneration, International Conference on Frontiers of Polymers and Advanced Materials 2013, OWEN G GLENN BUILDING, UNIVERSITY OF AUCKLAND, 2013노인섭
◾ Synthesis and Evaluation of Injectable Hyaluronic Acid-Chondroitin Sulfate Hydrogel Containing Platelet-Rich Plasma for Cartilage Regeneration, ICFPAM2013, 2013노인섭
◾ 주사형 생체재료 개발 현황과 조직공학으로의 응용, 제4차 한국조직공학.재생의학회 교육심포지움, 2013노인섭
◾ 노인섭, 주사형 생체재료 개발 현황과 조직공학으로의 응용, 한국조직공학. 재생의학회, 한국과학기술회관 회의장, 2013노인섭
◾ 김아람, 김범철, 박효승, 노인섭, 이온빔을 이용하여 키토산 코팅된 다공성 poly(Lactide-co-glycolide) 지지체의 평가, 2013 한국생체재료학회 제 21차 학술대회, 서울과학기술대학교, 2013노인섭
◾ Hyoseung Park. Ahram Kim, Bum-Chul Kim, Sumi Kim, Yun Jae Hwang, Insup Noh, Nerve cell compatibility of Chitosan-poly(Ethylene Oxide) Hydrogel, 2013년 한국생체재료학회, 서울과학기술대학교, 2013노인섭
◾ 1. umchul Kim1,SuyeonLee1,HyoseungPark1,AhramKim1, Insup Noh, Poly(ethylene glycol) Coating on the Polyethylene Surface for Prevention of Biofilm Formation, Ninth Asian-European International Conference on plasma surface engineering, Ramada Plaza Jeju Hotel, 2013노인섭
◾ Bumchul Kim1,SeungJinOh1,SuyeonLee1,HyoseungPark1,AramKim1,JongbeomJeong1, InsupNoh, Poly(ethylene glycol) Coating for Reduction of Bacterial Adhesion on Poly(dimethyl siloxane) Substrates for Its Applications in Ventilation Tubes, Ninth Asian-European International Conference On plasma surface engineering, Ramada Plaza Jeju hotel, 2013노인섭
◾ Ahram Kim, Hyoseung Park, Sumi Kim, Suyeon Lee, Seungjin Oh, Bumchul Kim,Insup Noh, Patterned Hyaluronic Acid Hydrogel for Tissue Engineering, The 11th International Nanotech Symposium & nano- convergence Expo, Coex, Seoul, 2013노인섭
◾ Ah Ram Kim, Hyo Seung Park, Beom Chul Kim, Eun Kyung Shin, Soo Yeon Lee, Insup Noh, Evaluation of Hyaluronic Acid-Chondroitin Sulfate Hydrogel Contaning Platelet-Rich Plasma for Cartilage Restoration, International Conference on Regenerative Biomedical materials 2013, Wuhan, 2013노인섭
◾ Bum-Chul Kim, Seung Jin Oh, Sumi Kim, Hyoseung Park, In-Sup Noh*, The Surface Coating of Poly(ethylene glycol) for Prevention of Biofilm Formation of Polyethylene Ventilation Device, 15차 한국 조직공학 재생의학회, 한국과학기술회관, 2013노인섭
◾ 김아람1, 박효승1,이수연1, 김범철1, 오승진1, 김새순1, 노인, 자가경화형 콘드로이틴 설페이트-폴리에틸렌옥사이드 하이드로겔의 골재생 적합성 평가, 15차 한국 조직공학 재생의학회, 한국과학기술회관, 2013노인섭
◾ Sumi Kim, Yunjae Hwang, Eunkyuung Shin, Suyeon Lee, Beomchul Kim. Hyosenung Park, Insup noh, Evaluation of Hyaluronic Acid Hydrogel For Tissue Engineering, The 10th Korea-China Symposium on Biomaterials & Nano-Biotechnology, Seoultech, 2012노인섭
◾ 노인섭,김아람,박효승,방수미,김수미,신은경, Effects of Cross-Linking Spacers on Nerve Cell Biocompatibility of Chitosan -Poly(ethylene oxide) Hydrogel, The 7th World Congress on Biomimetics, Artificial Muscles and Nano-Bio (BAMN2013), 제주도, 2012노인섭
◾ 1. Yoon Ki Joung, Bunam Jang, Jong Hee Kang, Jiyeon Choi, Kwideok Park, Dong Keun Han, Controlled Release of sirolimus using solvent affinity of drug-loaded polymer for drug-eluting stents, 9th World Biomaterials Congress, Chengdu, 2012노인섭
◾ Seongyun Jo, Sumi Kim, Biological evaluation of injectable hyaluronic acid-poly(ethylene oxide)hydrogel, 9th World Biomaterials Congress, Chengdu, 2012노인섭
◾ 김수미, 조성연, 신은경, 노인섭, 키토산-폴리에틸렌옥사이드 하이드로젤의 신경세포 적합성 평가, 제14차 한국조직공학재생의학회 학술대회, 가톨릭대학교, 2012노인섭
◾ Sumi Kim, Yunjae Hwang, Seongyeon Jo and Insup Noh, Characterization of chondrotin sulfate hydrogel, 제14차 한국조직공학재생의학회 학술대회, 가톨릭대학교, 2012노인섭
◾ 노인서, 리포아마이드가 결합된 고분자화합물과 이의 제조방법, ABBF 2012 Asia Bio Business Forum 기술설명회 발표자료집, 일산 킨텍스, 2012노인섭
◾ 노인섭, 김수미,조성연, 황윤재, 신은경, 이수연, Properties of chitosan-linolate ?Poly(ethylene oxide) Hydrogel, 2012 춘계학술대회 연구논문 초록집 제 37권 1호, 대전컨벤션센터, 2012노인섭
◾ 노인섭, 오승진, 김수미, 김범철, 이수연, 신철호,, Evaluation of proton ion beam treated PLGA scaffold coated thin chitosan flim, 2012 춘계학술대회 연구논문 초록집 제37권 1호, 대전컨벤션센터, 2012노인섭
◾ 조성연, 김수미, 황윤재, 신은경, evaluation of self cross- linking chondroitin sulfate-ploy(ethylene dxide) hydrogel, 2012 춘계학술대회 연구논문 초록집, 제 37권 1호, 대전컨벤션센터, 2012노인섭
◾ Seongyeon Jo, Sumi Kim, Yunjae Hwang and Insup Noh, Synthesis and Evaluation of Chondroitin Sulfate Hydrogel, 2012 생체재료 아카데미, Abstract 제16권 1호, 대구광역시 영남대 의료원, 2012노인섭
◾ 노인섭, Biological evaluation of injectable chondroitin sulfate-poly(ethylene oxide) hydrogel for tissue engineering, The 4th International Conference on the Development of Biomedical Engineering, Ho Chin Minh City, 2012노인섭
◾ SY Jo, SM Kim, YJ Hwang, CH Shin, Eunkyung Shin, BC Kim, SY Lee, Bio-Evaluation of Chondroitin Sulfate-Based Hydrogel, THE 9th CHINA-KOREA SYMPOSIUM ON BIOMATERIAL AND NANO-BIOTECHNOLOGY, Sanya, 2011노인섭
◾ hydrogels in tissue engineering, 이비인후과질환의 조직공학적 치료를 위한 다학제 융합워크샵, 동국대학교,일산, 2011노인섭
◾ Chulho Shin, Sumi Kim, Seongyeon Jo, Biological characterizations of hyaluronic acid hydrogel particles, 2011 IEEE Nanotechnology Materials and Devices Conference, Jeju, Korea., 2011노인섭
◾ Seongyeon JO, Sumi KIM and Yunjae HWANG and Ind Insup NOH,, In Situ Chondroitin Sulfate-Poly(ethylene oxide) Hydrogel for Its Applications in Tissue Engineering, 한국생물공학회 추계학술대회 및 국제심포지엄, 인천 송도컨벤시아, 2011노인섭
◾ Physicochemical and Biological Evaluations of Chitosan-Linolate-Poly (ethylene oxide) Hydrogel, The 3rd Asian Biomaterials Congress, 2011노인섭
◾ Biological Properties of Chitosan-aminosalicylate-Poly (ethylene oxide) Hydrogel, The 3rd Asian Biomaterials Congress, 부산 BEXCO, 2011노인섭
◾ Biological Evaluations of Self Cross-Linked Chondroitin Sulfate-Poly (Ethylene Oxide) Hydrogel, The 3rd Asian Biomaterials Congress, 부산 BEXCO, 2011노인섭
◾ CHARACTERIZATIONS OF CHONDROITIN SULFATE-POLY)ETHYLENE OXIDE) HYDROGEL, TERMIS - EU 2011 Annual Meeting, Granada, 2011노인섭
◾ Physicochemical Propertise of chitosan-poly(ethylene oxide) hydrogel modified through linoleic acid, 제 13차 한국조직공학 재생의학회 학술대회, 가톨릭대학교, 서울, 2011노인섭
◾ 조성연, 황윤재, 김수미, 신은경, 노인섭, Biological characterization of hyaluronic acid-Based Hydrogel, 제 13차 한국조직공학 재생의학회 학술대회, 가톨릭대학교, 서울, 2011노인섭
◾ 조성연, 황윤재, 신철호, 김수미, 노인섭, Physicochemical evaluation of injectable chondroitin sulfate- Poly(ethylene oxide) Hydrogel, 제 13차 한국조직공학 재생의학회 학술대회, 가톨릭대학교, 서울, 2011노인섭
◾ 장부남, 강종희, 최지연, 박귀덕, 노인섭, 한동근, 시롤리무스 방출형 스텐트의 생분해성 고분자코팅 최적화 및 약물 방출 거동 제어, 제 13차 한국조직공학 재생의학회, 가톨릭대학교, 서울, 2011노인섭
◾ 신철호,오승진,김범철, 신은경, 이수연, 우정훈, 노인섭, 이온빔을 처리한 Chitosan- Aminosalicyclic Acid-PLGA scaffold의 특성, 제 13차 한국조직공학 재생의학회 학술대회, 가톨릭대학교, 서울, 2011노인섭
◾ 황윤재, 김도연, 김수미, 신은경, 조성연, 김범철, 이수연, 노인섭, characterization of chitosan-poly(ethylene oxide) Hydrogel Connected through Para-maissalicylic acid, 제 13차 한국조직공학 재생의학회 학술대회, 가톨릭대학교,서울, 2011노인섭
◾ 오승진,우우정훈, 신철호, 김수미, 신은경, 노인섭, 사이클로트론 이온빔의 브래그피크에 따른 키토산이 코팅된 다공성 하이브리드 지지체의 물리화학적 평가, 제 13차 한국조직공학 재생의학회 학술대회, 2011노인섭
◾ Sirolimus-eluting stent coated by ultrasonic spray and controlled drug releaseSirolimus-eluting stent coated by ultrasonic spray and controlled drug release, 2011 춘계 학술대회 연구논문집, 2011노인섭
◾ High Energy Beam Treatment and Characterization of Poly(lactide-co-glycolide) Scaffolds Coated with Chitosan-Para-aminosalicylic Acid, 생체재료학회지, 수원 성균과대학교 의학관, 2011노인섭
◾ Characterization of Chitosan-Poly(ethylene oxide) Hydrogel Grafted with Para-amnosalicylic Acid, 생체재료학회지, 수원 성균관대학교 의학관, 2011노인섭
◾ Sirolimus-eluting stent coated by ultrasonic spray and its controlled release, 생체재료학회지, 수원 성균관대학교 의학관, 2011노인섭
◾ Cyclotron 이온 빔 조사된 Chitosan Film의 생물학적 평가, 스마트 생체재료의 현황과 전망, 서울대학교병원 임상의학연구소, 2010노인섭
◾ Chondroitin Sulfate-Poly(ethylene oxide) 하이드로젤 합성 및 평가, 생체재료학회지, 서울대학교 임상의학연구소, 2010노인섭
◾ Preparation of Sirolimus eluting stent by ultrasonic spray nanocoater and drug release study, 한국생체재료학회지, 서울대학교 임상의학연구소, 2010노인섭
◾ EFFECT OF CARDIOPLEGIA ON RBC DEFORMABILITY AND ABILITY TO DELIVER OXYGEN, The Korean Journal of Thoracic and Cardiovascular Surgery, 대구 호텔인터불고, 2010노인섭
◾ Optimization of polymer coating process using ultrasonic spray and drug release kinetics from sirolimus-eluting stent, 가을 학술대회 초록, 대구 EXCO, 2010노인섭
◾ Chondrointin Sulfate-Poly (Ethylene Oxide) Hydrogel for Tissue Engineering Applications, Second International Conference on Natural Polymers, The Windsor Castle Kodimatha, Kottayam, Kerala, 2010노인섭
◾ Fabrication and Controlled Drug Release of Sirolimus-Loaded PLGA Coating Stents by Ultrasonic Spraying, Second International Conference on Natural Polymers, The Windsor Castle Kodimatha, Kottayam, Kerala, 2010노인섭
◾ Characterization of Chitosan-poly(ethylene oxide) Hydrogel for Tissue Engineering Applications, BIN Fusion International Symposium on WCU The 3rd International Conferenceon MFMS, 전주 전북도청 대강당, 2010노인섭
◾ In situ Chondroitin Sulfate-Poly(ethylene oxide) Hydrogel for Cartilage Tissue Regeneration, International Carbyhydrate Symposium, Makuhari Messe International Convention Complex Chiba, 2010노인섭
◾ Fabrication of self-Cross linking Chondroitin Sulfate-Poly(ethylene oxide) Hydrogel for Tissue Regeneration, International Carbohydrate Symposium, Makuhari in Chiba, 2010노인섭
◾ Evaluation of Tissue Regeneration of Porous Poly(lactide-co-glycolide) Scaffold Irradiated with Cyclotron Ion Beams with High Energies, Japan Society for the Promomion of Science, 제주 롯데호텔, 2010노인섭
◾ 다공성 PLGA 하이브리드 지지체의 생물학적 특성 평가, 키틴키토산학회지, 한경대학교, 2010노인섭
◾ Characterization of injectable chondroitin sulfate-based hydrogel, Tissue Engineering and Regenerative Medicine, 서울 가톨릭대학교, 2010노인섭
◾ 키토산-폴리에틸렌옥사이드 in situ 하이드로젤의 세포적합성 평가, Tissue Engineering And Regenerative Medicine, 서울가톨릭대학교, 2010노인섭
◾ 이온빔 처리된 다공성 PLGA 지지체의 이화학 및 생물학적 특성분석, Tissue Engineering And Regenerative Medicine, 서울 가톨릭대학교, 2010노인섭
◾ Synthesis in situ hydrogels and its applications in bone tissue engineering, 2010 한국생물공학회 춘계학술대회 논문집, 2010노인섭
◾ Synthesis and evaluation of novel chondroitin sulfate-based hydrogel, 2010년 춘계 학술대회 연구논문 초록집, 2010노인섭
◾ 키토산 코팅된 다공성 PLGA 하이브리드 지지체의 특성 평가, 2010년 춘계 학술대회 연구논문 초록집, 2010노인섭
◾ 키토산 기반의 하이드로젤에 대한 특성 평가, 2010년 춘계 학술대회연구논문초록집, 2010노인섭
◾ Engineering of a clinically useful hydrogel matrix for cell therapy, 스마트 생체재료의 의학적 응용, 2010노인섭
◾ 생분해성 키토산-Oleic acid 수화젤의 in vitro 생체적합성 평가, 스마트 생체재료의 의학적 응용, 2010노인섭
◾ characterization of novel chondroitin sulfate-based hydrogel, KIST, 2009노인섭
◾ 4-Aminosalicyclic acid 를 이용한 키토산-폴리에틸렌옥사이드 하이드로젤의 생체적합성 평가, 한국생체재료학회, 2009노인섭
◾ 브래그피크 이온 빔 에너지가 조사된 생분해성 PLGA 지지체의 조직재생능력 평가, 한국생체재료학회, 2009노인섭
◾ Synthesis and Evaluation of chitionsan based hydrogel, 2nd International Congress on Biohydrogels, 2009노인섭
◾ Synthesis of chondroitin sulfate hydrogel for bone tissue engineering, 2nd International Congress on Biohydrogels, 2009노인섭
◾ Synthesis and Evaluation of Chitosan-Based Hydrogel, The 5th China-Korea Symposium on Biomaterials and Nano-Bio Technology, 2009노인섭
◾ Synthesis and evaluation of injectable chondroitin sulfate-poly(ethylene oxide) hydrogel, Abstracts Presented at the 40th KSIEC Meeting, 2009노인섭
◾ 키토산 기반의 하이드로젤 합성과 평가, Abstracts Presented at the 40th KSIEC Meeting, 2009노인섭
◾ 고에너지 사이클로트론 이온 빔 처리된 생분해성 고분자 폴리(락티드-글리콜리드) 지지체의 조직재생평가, Abstracts Presented at the 40th KSIEC Meeting, 2009노인섭
◾ Cellular Behaviors on Chitosan-coated Porous Poly(lactide-co-glycolide) hybrid scaffold modified by ion beams, Internaional conference on plasma surface engineering, 2009노인섭
◾ Effect of irradiation of ion beams with different high energies on the porous poly(lactide-co-glycolide) scaffolds, Internaional conference on plasma surface engineering, Busan, 2009노인섭
◾ Evaluation of Tissue Regeneration of the Porous Poly(lactide-co-glycolide) scaffold Irradiated with Proton Ion Beam, Internaional conference on plasma surface engineering, Busan, 2009노인섭
◾ Understanding of the Interface Between Two Layers of Chitosan-Poly(lactide-co-glycolide) Hybrid scaffold irradiated by proton ion beams, Internaional conference on plasma surface engineering, Busan, 2009노인섭
◾ Effect of Irradiation of Proton Ion Beams on the Chitosan-Pol, Internaional conference on plasma surface engineering, Busan, 2009노인섭
◾ Biological Evaluation of chitosan films treated with proton i, Internaional conference on plasma surface engineering, Busan, 2009노인섭
◾ Analysis of Poly(lactide-co-glycolide) Scaffold Treated by Pr, Internaional conference on plasma surface engineering, Busan, 2009노인섭
◾ Evaluation of Proton Ion Beam Treated PLGA scaffold, Tissue engineering and regenerative medicine, 롯데호텔 (서울), 2009노인섭
◾ Evaluation of Bulk Properties of Porous Poly(lactide-co-glycolide) Scaffolds Treated with Bragg Peak Energy of Cyclotron Ion beam, Tissue engineering and regenerative medicine, 롯데호텔, 서울, 2009노인섭
◾ Synthesis and Evaluation of Chondroitin Sulfate Hydrogel, Tissue engineering and regenerative medicine, 2009.09.01, 2009노인섭
◾ Synthesis and Evaluation of Chitosan Hydrogel, Tissue engineering and regenerative medicine, 롯데호텔, 서, 2009노인섭
◾ 사이클로트론 이온빔 조사를 이용한 조직공학 하이브리드 지지체 개발, 사이클로트론 이용기술 발표회, 한국원자력의학원, 2009노인섭
◾ 노인섭, 콘드로이틴-설페이트 하이드로젤의 생체적합성 평가, 한국생체재료학회, 2009노인섭
◾ 노인섭, 콘드로이틴-설페이트 하이드로젤의 물리화학적 평가, 한국생체재료학회, 2009노인섭
◾ 노인섭, 고에너지 이온 빔 처리된 생분해성 폴리(락티드-글리콜리드)지지체의 특성평가, 한국생체재료학회, 2009노인섭
◾ 노인섭, 브래그피크 이온 빔 에너지를 조사한 생분해성 PLGA 지지체의 물리화학적 특성평가, 한국생체재료학회, 2009노인섭
◾ Insup Noh, Fabrication of a Novel Chitosan-based Hydrogel, 한국생체재료학회, 2008노인섭
◾ 손국희, 손호성, 박용두, 최재순, 노인섭, In Vivo Study of the Hybrid ePTFE Vascular Graft after In Vitro Tissue Regeneration, 한국생체재료학회, 2008노인섭
◾ 손국희, 손호성, 박용두, 최재순, 노인섭, 유착 방지제의 이화학적 특성 평가, 한국생체재료학회, 2008노인섭
◾ 노인섭, 고에너지 사이클로트론 이온 빔 처리된 생분해성 PLGA 지지체의 벌크 특성변화 유도와 특성평가, 한국생체재료학회, 2008노인섭
◾ 적외선 분광학에 의한 뇨내 글루코즈와 타 성분의 농도예측 방법, 센서학회지, 서울시립대학교, 2008노인섭
◾ Chun-Ho Kim, Gun-Woo Kim, Yong Jae Gin, Insup Noh, Jaesik Na, New fabrication method for tissue engineering chitosan scaffold, 8th International Conference of the European Chitin Society, Antalya, Turkey, 2008노인섭
◾ I. NOH, Y.J. CHOI, H.K. KANG, S.J. LEE, CYCLOTRON ION BEAM IRRADIATION ON BIOMEDICAL POLYMERS AND ITS APPLICATIONS, International Conference on Multi-functional Materials and Structures, 홍콩, 2008노인섭
◾ I NOH, MS KIM, YJ CHOI, HK KANG, Molecular Weight Control of Hyaluronic Acid with Irradiation of Cyclotron Ion Beam, 8TH WORLD BIOMATERIALS CONGRESS, 암스텔담, 네덜란드, 2008노인섭
◾ I. NOH, HS Son, YH Fang, YD Park, YJ CHOI, MS KIM, HK KANG, IN VIVO TISSUE REGENERATION OF A HYBRID VASCULAR GRAFT, 8TH WORLD BIOMATERIAL CONGRESS, 암스텔담, 네덜란드, 2008노인섭
◾ 노인섭, 최윤정, 김미숙,강현기,강경화,정은애,조성연, 최미경, 윤미현, 싸이클로트론 이온빔 조사된 생분해성 POLY(LACTIDE-CO-GLYCOLIDE)지지체의 IN VITRO 생체적합성 평가, 한국생체재료학회 아카데미, KIST, 2008노인섭
◾ 황순정, 김인숙, 조태형, 노인섭, 김미숙,최윤정,강현기,, 키토산-폴리에틸렌옥사이드 하이드로젤의 합성과 IN VIVO 상의 쥐 두개골 조직재생 평가, 한국생체재료학회 아카데미, KIST, 2008노인섭
◾ 노인섭, 김미숙, 최윤정, 강현기, 조성연, 조범숙, 김지영, 김도, 히알루론산-폴리에틸렌옥사이드 하이드로젤의 합성과 IN VITRO 상에서의 조직 재생 평가, 한국생체재료학회 아카데미, KIST, 2008노인섭
◾ 박용두,이규백,김인숙,황순정, 노인섭, 김미숙, 최윤정, 강현기, 김도연,, 히알루론산-폴리에틸렌옥사이드-RGD 펩타이드 IN SITU 하이드로젤의 합성과 세포적합성 평가, 한국생체재료학회 아카데미, KIST, 2008노인섭
◾ 강현기, 최윤정, 김도연, 윤미현, 최미경, 강경화, 정은애, 노인섭, 사이클로트론 이온 빔을 이용한 생분해성 PLGA 지지체의 분자량 조절 및 특성 평가, 한국생체재료학회 아카데미, KIST, 2008노인섭
◾ 노인섭, 최윤정, 강현기, 김도연, 김미숙,, 프로톤 이온빔을 이용한 키토산의 분자량 조절 및 특성평가, 한국생체재료학회 아카데미, KIST, 2008노인섭
◾ 노인섭, 싸이클로트론 이온빔을 이용한 생분해성 조직공학 지지체의 조직재생 속도 조절, 08 사이클로트론 이용자 연구결과 발표회- 국가 대형 연구시설 연구 발표회, 원자력의학원, 2008노인섭
◾ 노인섭, 고에너지의 사이클로트론 이온빔 조사에 의한 생분해성 PLGA 지지체의 특성평가, ‘08-09 사이클로트론 이용자 연구결과 발표회, 2008노인섭
◾ SEON-HO CHO, INSUP NOH, NANO STRUCTURED CALCIUM PHOSPHATE THIN FILM TO IMPROVE OSSEOINTEGRATION, THE 18TH SYMPOSIUM OF THE MATERIALS RESEARCH SOCIETY OF JAPAN, 2007노인섭
◾ 사이클로트론 이온 빔을 이용한 다공성 PLGA 지지체의 분자량 특성 조절, 2007한국생체재료학회 제15차 학술대회, 2007노인섭
◾ 생분해성 폴리(락타이드-co-글리콜라이드)를 기저로 하는 고분자 지지체의 특성 평가, 2007한국생체재료학회 제15차 학술대회, 2007노인섭
◾ KH Son, YH Fang, YJ Choi, DH Park, YM Kang, IS Noh, JB, Choi, K Sun, HS Son,, In vivo evaluation of hybrid ePTFE vascular graft, 2nd International Joint Congress of the International, Osaka, Japan, 2007노인섭
◾ Insup Noh, HONG-ROK KIM, MI-SOOK KIM,YOON-JEONG CHOI, Cyclotron ion beam irradiation on chitosan, The 4th Korea-China Symposium on Biomaterials and Nano-Bio Te, Jeju-do, Korea, 2007노인섭
◾ J KIM, G TAE, KB LEE, I NOH, SJ HWANG, IS KIM, K SUN, Y PARK, BONE TISSUE ENGINEERING USING VARIOUS HYALURONIC ACID BASED HYDROGELS AND HUMAN MECHENCHYMAL STEM CELLS, ARTIFICIAL ORGAN, 2007노인섭
◾ IS NOH, JB CHOI, K SUN, HS SON, KH SON, YH FANG, YJ CHOI, YM KANG , D.H. Park, IN VIVO EVALUATION OF HYBRID EPTFE VASCULAR GRAFT, ARTIFICIAL ORGAN, 2007노인섭
◾ YONG JAE KIM, INSUP NOH, GUN-WOO KIM,JAESIK NA, NEW FABRICATION METHOD FOR TISSUE ENGINEERING CHITOSAN SCAFFOLD, 8th International Conference of the European Chitin Society, 2007노인섭
◾ 윤길원, 중적외선 분광학을 이용한 간질액의 글루코즈 농도의 예측, 한국광학회 하계학술대회, 속초, 2007노인섭
◾ I. Noh, M.S. KIM, Y.J. CHOI, MOLECULAR WEIGHT CONTROL OF CHITOSAN WITH CYCLOTRON ION BEAM IRRADIATIONS WITH HIGH BEAM ENERGIES, ICIS-14, Seoul, Korea, 2007노인섭
◾ I. Noh, Characterization of the Chitosan-based Hydrogel, ICIS-14, Seoul, Korea, 2007노인섭
◾ I. Noh, Y.J. CHOI, Y. M. KANG, M.S. KIM, H.J. LEE, Evaluation of the Ion Beam-treated Polylactide Scaffolds for Tissue Engineering Applications, ICIS-14, Seoul, Korea, 2007노인섭
◾ 김미숙, 이규백, 황순정, 김인숙, 박용두,강현기, 노인섭, IN SITU 히알루론산-폴리에틸렌옥사이드-RGD 하이드로젤의 세포적합성 평가, 한국조직공학 재생의학회, 서울대학교, 2007노인섭
◾ 손호성, 방영호, 최윤정, 이현주, 강영미, 박다현, 노인섭, 개 모델에서의 하이브리드 인공혈관의 IN VIVO 조직재생, 한국조직공학 재생의학회, 서울대학교, 2007노인섭
◾ 박용두, 이규백, 황순정, 노인섭, 김미숙, 강현기, 이현주, 김도연, 김인숙, 히알루론산-폴리에틸렌옥사이드-펩타이드 하이드로젤의 합성과 세포적합성평가, 2007년 춘계 학술대회, 제주국제컨벤션센터, 2007노인섭
◾ 김미숙, 노인섭, 이현주, 강현기, 싸이클로트론 이온빔을 이용한 키토산의 분자량 변화평가, 2007년 춘계 학술대회, 한국과학기술연구원(KIS, 2007노인섭
◾ 최윤정, 김미숙, 강현기, 이현주, 김홍록, 노인섭, IMPROVEMENT OF CELLULAR INTERACTION OF AN EXPANDED POLYTETRAFLUOROETHYLENE GRAFT BY ION BEAM TREATMENT, 2007년 춘계학술대회 연구논문초록자집, 2007노인섭
◾ 손호성, 방영호, 최윤정, 강영미, 박다현, 이현주,강현기, IN VIVO TISSUE ENGINEERING OF THE HYBRID VASCULAR GRAFT, 2007년 춘계 고분자 학회, 제주국제컨벤션센터, 2007노인섭
◾ 황순정, 노인섭, 김미숙, 강현기, 이현주, 김인숙, CELLULAR BEHAVIOR OF IN SITU CHITOSAN-POLY(ETHYLENE OXIDE) HYDROGEL CONTAINING HYDROXYAPATITE-TRICALCIUM PHOSPHATE MICRO-PARTICLES, 2007년 춘계 학술대회, 제주국제컨벤션센터, 2007노인섭
◾ 노인섭, 김홍록, 최윤정, 김미숙, 강현기, 이현주, Surface Modification of Poly(lactide-co-glycolide) by lrradiation of Nitrogen Ion Beams for Vascular Tissue Engineering, 2007년 춘계 학술대회, 제주국제컨벤션센터, 2007노인섭
◾ 김홍록, 박기동, 최윤정, 김미숙, 강현기, 이현주, 노인섭, CELLULAR INTERACTION ON THE ION BEAM TREATED POLY(IACTIDE-CO-GLYCOLIDE) SCAFFOLD, 2007년 생체재료 아카데미, 한국과학기술연구원(KIS, 2007노인섭
◾ 노인섭, 김미숙, 최윤정, 강현기, 이현주, 사이클로트론 이온 빔 조사에 의한 키토산 분자량 변화 평가, 2007년 생체재료 아카데미, 한국과학기술연구원(KIS, 2007노인섭
◾ 노인섭, 생분해성 고분자 지지체 층을 포함하는 하이브리드 인공혈관 및 그의 제조방법, 2007년 대학공동기술이전설명회 (생명-바이오분야), 2007노인섭
◾ 사이클로트론 이온 빔을 이용한 키토산 분자량 조절평가, 사이클로트론 이용자 연구결과 발표회, 원자력의학원, 2007노인섭
◾ 화학물질 전략물자, 2006노인섭
◾ 김홍록, 김미숙, 최윤정, 노인섭, MOLECULAR WEIGHT WITH CYCLOTRON ION BEAM IRRADIATION, 대한공업화학회, 2006노인섭
◾ 노인섭, CELLULAR INTERACTION OF IN SITU CHITOSAN- AND HYALURONIC ACID-BASED HYDROGEL, 대한공업화학회, 2006노인섭
◾ in-sup Noh, understanding of tissue regeneration by a biomedical engineer, Focusing on the In Situ Chitosan- and Hyaluronic Acid-Based Hydrogel, 2006년 추계학술대회, 2006노인섭
◾ 김미숙, 노인섭, 윤길, 중적외선 분광학을 이용한 세포배양액의 상태 모니터링과 간질액의 글루코즈 측정, 한국센서학회 종합학술대회, 한국과학기술원, 서울., 2006노인섭
◾ HONG-ROK Kim, inup Noh, MI-SOOK KIM, YOON-JEONG CHOI,, CYCLOTRON ION BEAM IRRADIATION ON CHITOSAN, he Forth Korea-China Symposium on Biomaterials and Nano-Bio Technology, 2006노인섭
◾ HONG-ROK KIM, YOON-JEONG CHOI, MI-SOOK KIM, INSUP NOH, CONTROL OF CHITOSAN MOLECULAR WEIGHT WITH CYCLOTRON ION BEAM IRRADIATION, IUPAC & 30회 고분자학회, 2006노인섭
◾ JUNGJU KIM, KYU BACK LEE, SOON JUNG HWANG, IN SOOK KIM, KYUNG SUN, YONGDOO PARK, JAE YEON LEE, INSUP, EVALUATION OF MESENCHYMAL STEM CELL VIABILITY AND PROLIFERATION IN LOW MOLECULAR WEIGHT HYALURONIC ACID BASED HYDROGEL, IUPAC & 30회 고분자학회, 2006노인섭
◾ HONG-ROK KIM, MI-SOOK KIM, YEON-JUNG CHOI, INSUP NOH, SURFACE MODIFICATION OF POLYTETRAFLUOROETHYLENE-POLY(LACTIDE-CO-GLYCOLIDE) SCAFFOLD WITH LOW ENERGY ION BEAM IRRADIATION, IUPAC & 30회 고분자학회, 2006노인섭
◾ HYANG-DONG JANG, KI-SOOK PARK, HONG-ROK KIM, YOUNGSOOK SON, CHUN-HO KIM, SEUNG-HWA HONG, CHOONG-MAN,, DIFFUSION OF BIOACTIVE MOLECULAR THROUGH THE WALLS OF THE MEDIAL TISSUE-ENGINEERED HYBRID EPTFE GRAFTS FOR APPLICATIONS IN DESIGNS OF VASCULAR TISSUE REGENERATION, IUPAC & 30회 고분자학회, 부산, 대한민국, 2006노인섭
◾ GA SONG, JM HWANG, IS KIM, TH CHO, YM SONG, DK KIM, KB, LEE, YD PARK, SJ HWANG,, EARLY OSSEOINTEGRATION USING HYDROGEL AND MSC, 2006노인섭
◾ REGENERATION OF MUSCULOSKELETAL TISSUES USING ADULT STEM CELLS AND INTELLEGENT SCAFFOLDS, 2006노인섭
◾ HONG-ROK KIM, insup noh, YOON-JEONG CHOI, MI-SOOK KIM, SURFACE MODIFICATION OF POLYTETRAFLUOROETHYLENE FILM AND POLY(LACTIDE-CO-GLYCOLIDE) SCAFFOLD WITH LOW ENERGY NITROGEN ION BEAM IRRADIATION, The 10th International Workshop on Accelerator and Beam Utilization, 2006노인섭
◾ MI-SOOK KIM, YOON-JEONG CHOI, HONG-ROK KIM, INSUP NOH, CYCLOTRON ION BEAM IRRADIATION FOR REDUCTION OF CHITOSAN MOLECULAR WEIGHT, THE 10TH INTERNATIONAL WORKSHOP ON ACCELERATOR AND BEAM UTILIZATION, 경주시 경주교육문화회관, 2006노인섭
◾ KI SOOK PARK, HYANG DONG JANG, TISSUE REGENERATION OF THE HYBRID EPTFE VASCULAR GRAFT, 2006노인섭
◾ YONG DOO PARK, KYU BACK LEE, SOON JEONG HWANG, IN SOOK KIM, EVALUATION OF MECHANICAL PROPERTIES OF HYALURONIC ACID-POLY(ETHYLENE OXIDE) HYDROGEL, 2006노인섭
◾ EFFECT OF MOLECULAR STRUCTURE OF CHITOSAN-POLY(ETHYLENE OXIDE) HYDROGEL ON CELLULAR INTERACTION FOR, 2006노인섭
◾ TISSUE REGENERATION OF A HYBRID VASCULAR GRAFT COMPOSED OF BIODEGRADABLE LAYERS AND NON-BIODEGRADABL, 2006노인섭
◾ YONGDOO PARK, KYU-BACK LEE, IN-SOOK KIM, SOON-JEONG HWANG, Mi-Sook Kim, Yeon-Jung Choi, Gun-Woo Kang, EVALUATION OF ACID-TREATED HYALURONIC ACID FOR HYALURONIC ACID-BASED HYDROGELATION, THE 7TH ASIAN SYMPOSIUM FOR BIOME, 2006노인섭
◾ YONGDOO PARK, KYU-BACK LEE, IN-SOOK KIM, SOON-JEONG HWANG,Mi-Sook Kim, yoon jeong choi,, CHARACTERIZATION OF HYALURONIC ACID-POLY(ETHYLENE OXIDE) HYDROGEL DEPENDENT UPON MOLECULAR WEIGHT OF, THE 7TH ASIAN SYMPOSIUM FOR BIOME, 2006노인섭
◾ "YONGDOO PARK, KYU-BACK LEE, IN-SOOK KIM, SOON-JEONG HWANG", EFFECT OF HYDROXYAPATITE-TRICALCIUM PHOSPHATE MICRO-PARTICLES ON THE CELLULAR INTERACTION OF IN SITU, 2006노인섭
◾ "박용두(고대), 이규백(고대), 황순정(서울대), 김인숙(서울대)", CHARACTERIZATIONS OF LOW MOLECULAR WEIGHT HYALURONIC ACID-POLY(ETHYLENE OXIDE) HYDROGEL, 2006노인섭
◾ "황순정, 김인숙, 김천호", BONE TISSUE REGENERATION OF THE IN SITU CHITOSAN-POLY(ETHYLENE OXIDE) HYDROGEL, 2006노인섭
◾ "박기숙(엠씨티티), 장향동(산업대)", 하이브리드 인공혈관의 조직재생, 2006노인섭
◾ "GA SONG(서울대), JM HWANG(서울대), IS KIM(서울대), TH CHO(서울대), YM SONG(서울대), DK KIM(서울대),, Early osseointegration using hydrogel and MSC, 2006노인섭
◾ "박용두(고대), 이규백(고대), 김인숙(서울대), 황순정(서울대)", Poly(ethylene oxide) 분자량에 따른 Hyaluronic acid-Poly(ethylene oxide) Hydrogel의 특성분석, 2006노인섭
◾ "이규백, 박용두, 황순정, 김인숙, ", Evaluation of Mechanical Properties of Hyaluronic Acid-Poly(ethylene oxide) Hydrogel, 2006노인섭
◾ "박기숙, 장향동", Develpment of the Hybrid ePTFE Vascular Tissue Engineering, 2006노인섭
◾ JUNGJU KIM, YONGDOO PARK, GIYOONG TAE, KYU BACK LEE, SOON JUNG HWANG, IN SOOK KIM, KYUNG SUN, ONE STEP PREPARATION OF INJECTABLE HYALURONIC ACID BASED HYDROGEL AT PHYSIOLOGICAL CONDITION, 2006노인섭
◾ Development of Tissue Engineered Hybrid ePTFE Vascular Grafts Composed of Biodegradable Layers and N, 2006노인섭
◾ "Yong-Doo Park, Kyu-Back Lee, Soon-Jeong Hwang, In-Sook Kim", "Low Molecular Weight Hyaluronic Acid-Poly(ethylene oxide) Hydrogel,", 2006노인섭
◾ "박기숙, 장향동", Tissue Regeneration of the Hybrid Vascular Graft, 2006노인섭
◾ "황순정(서울대), 김인숙(서울대), 태기융(광주과학원)", Chitosan-Poly(ethylene oxide) Hydrogel 합성과 세포적합성 평가, 2006노인섭
◾ "이규백(고대), 박용두(고대),황순정(서울대), 김인숙(서울대), 태기융(광주과학원)", 히알루론산-폴리에틸렌옥사이드 하이드로젤의 세포적합성 평가, 2006노인섭
◾ "장향동(엠씨티티), 박기숙(엠씨티티), 황지훈(엠씨티티)", Evaluation of tissue regenerated hybrid vascular grafts, 2005노인섭
◾ "박용두(고대), 이규백(고대), 황순정(서울대)", evaluation of hyaluronic aicd-poly(ethylene oxide) hydrogels properties, 2005노인섭
◾ EVALUATION OF TISSUE ENGINEERING HYBRID VASCULAR GRAFT, 2005노인섭
◾ "박기숙(엠씨티티), 황지훈(엠씨티티), 장향동(서울대)", synthesis of in situ chitosan-poly(ethylene oxide) hydrogel, 2005노인섭
◾ "김인숙, 황순정, 박용두, 이규백", Evaluation of hyaluronic acid-poly(ethylene oxide) hydrogel, 2005노인섭
◾ Cyclotron ion beam irradiatio on the polytetrafluoroethylene films for evaluation of cellular intera, 2005노인섭
◾ "Yong-Doo Park, Kyu-Back Lee, In-Sook Kim, Soon-Jeong Hwang", Dependence of hyaluronic acid molecular weights on the properties of hyaluronic acid-poly(ethylene o, 2005노인섭
◾ "YONGDOO PARK , GIYOONG TAE, KYU BACK LEE, SOON JUNG HWANG, IN SOOK KIM, KYUNG SUN", SYNTHESIS AND IN VITRO EVALUATION OF HYALURONIC ACID BASED HYDROGEL, 2005노인섭
◾ "In-Sook Kim(서울대), Soon-Jeong Hwang(서울대)", Development of in situ functional chitosan-poly(ethylene oxide) hydrogel, 2005노인섭
◾ Regeneration of the vascular tissue s of the hybrid ePTFE graft under pulsatile flow, 2005노인섭
◾ "김성원(KIST), 김광명(KIST), 김종호(KIST), 박재형(KIST)", 단백질 약물의 방출속도가 제어된 키토산 입자의 설계, 2005노인섭
◾ "Yongdoo Park(고대), Giyoong Tae(광주과학원), Kyu Back Lee(고대), Soon Jung Hwang(서우대), In Sook K, Synthesis and in vitro evaluation of injectable hyaluronic acid based hydrogel, 2005노인섭
◾ VASCULAR TISSUE REGENERATION OF THE HYBRID VASCULAR GRAFTS BY IN VITRO BIOREACTORS, 2005노인섭
◾ "박용두, 이규백, 김인숙, 황순정, 태기융", Properties of hyaluronic acid-poly(ethylene oxide) hydrogels, 2005노인섭
◾ Development of chitosan-poly(ethylene oxide) in situ hydrogel, 2005노인섭
◾ "태기융, 이규백, 황순정, 김인숙, 선경, 박용두", synthesis and in vitro evaluation of injectable hyaluronic aicd absed hydrogel, 2005노인섭
◾ 하이브리드 조직공학 인공혈관 개발과 평가, 2005노인섭
◾ "박용두, 이규백, 김인숙, 황순정", Effects of moleuclar weights on hyalyaronic acid-poly(ethylene oxide) hydrogel properties, 2005노인섭
◾ "J-C. Park(연세대), In-Seop Lee(연세대)", Surface modification of polytetrafluoroethylene using atmospheric plasma jet for medical application, 2005노인섭
◾ SURFACE MODIFICATION OF THE POLYTETRAFLUOROETHYLENE FILMS WITH CYCLOTRON ION BEAM IRRADIATION FOR EV, 2005노인섭
◾ "J-C. Park, In-Seop Lee", Surface modification of polytetrafluoroethylene using atmospheric plasma jet for medical application, 2005노인섭
◾ Surface modification of the polytetrafluoroethylene films with cyclotron ion beam irradiation for ev, 2005노인섭
◾ "HD Jang, KS Park,", Vascular tissue regeneration of the hybrid vascular scaffolds, 2005노인섭
◾ Tissue Regeneration of the Hybrid Vascular Grafts under Pulsatile Flow, 2005노인섭
◾ Tissue regeneration of the hybrid vascaular grafts under pulsatile flow, 2005노인섭
◾ Synthesis and evaluation of in situ chitosan-poly(ethylene oxide) hydrogel, 2005노인섭
◾ Cyclotron 이온빔 조사에 의한 PTFE 지지체의 표면개질, 2005노인섭
◾ 박동유체 순환에 의한 하이브리드 인공혈관 지지체의 MEDIA 조직재생유도, 2005노인섭
◾ "YD Park, KB Lee, IS Kim, SW Hwang,", Synthesis and evaluation of hyaluronic acid-poly(ethylene oxide) hydrogel, 2005노인섭
◾ "박용두, 태기융, 이규백, 황순정, 선경", 마이클타입 반응에 의해 cross-linking 된 히알유론산 기반의 하이드로젤의 특성 분석에 관한 연구, 2005노인섭
◾ "박용두, 이규백, 김인숙, 황순정, 장향동", 조직재생용 hyaluronic acid-poly(ethylene oxide) hydrogel 지지체 합성과 평가, 2005노인섭
◾ "장향동, 박기숙", 하이브리드 인공혈관 지지체의 조직재생유도와 분석, 2005노인섭
◾ "장향동, 박기숙", Bioreactor를 이용한 하이브리드 지지체의 3차원 In Vitro 혈관조직 재생유도, 2005노인섭
◾ "홍충만, 신인수, 홍성화, 박순희", 조직공학 인공혈관의 생리활성물질 Diffusion transport 평가, 2005노인섭
◾ Cyclotron ion beam 조사에 의한 인공혈관 지지체의 표면개질, 2004노인섭
◾ "박용두, 이규백, 황순정", Michael type 반응을 이용한 poly(ethylene grycol)-Hyaluronic acid hydrogel 합성 및 평가, 2004노인섭
◾ 장향동(산업대), 다공성 젤라틴-키토산 지지체의 제조와 평가, 2004노인섭
◾ "신인수, 홍충만, 홍성화", 생리활성물질 이동현상을 이용한 조직공학 인공혈관 벽의 기계적 특성평가, 2004노인섭
◾ media tissue regeneration of the hybrid expanded polytetrafluoroethylene vascualr graft, 2004노인섭
◾ Media tissue regeneration of the hybrid expanded polytetrafluoroethylene vascular graft, 2004노인섭
◾ Synthesis and evaluation of a hybrid scaffold fabricated with gelatin and chitosan, 2004노인섭
◾ "박용두, 이규백, 황순정", synthesis of hyaluronic acid-based hydrogel with poly(ethylene glycol), 2004노인섭
◾ "박기숙, 임세환, 장향동", 하이브리드 ePTFE 인공혈관의 Media 조직재생, 2004노인섭
◾ Smooth muscle cell ingrowth of the surface-modified ePTFE vascular graft, 2004노인섭
◾ Vascular tissue regeneration of the hybrid ePTFE graft for adult patients, 2004노인섭
◾ Smooth muscle cell ingrowth of the surface-modified ePTFE vascular graft, 2004노인섭
◾ Vascular tissue regeneration of the hybrid ePTFE graft, 2004노인섭
◾ "박용두, 이규백, 황순정", Hyaluronic acid와 Poly(ethylene glycol) 유도체를 이용한 경조직 재생용 Hydrogel 제조와 평가, 2004노인섭
◾ Tissue engineering of the Hybrid ePTFE graft with smooth muscle cells, 2004노인섭
◾ Tissue engineering of the hybrid ePTFE vascular graft, 2004노인섭
◾ 키토산이 포함된 폴리락타이드 생분해성 지지체 개발, 2003노인섭
◾ "Oh Ho Jung, Lee nam Kyung, Kim Soon Nam, Hong Choong Man, Lee Ki Hong, Yoo Si Hyung, Shin In Soo, L, A study on the evaluation of artificial cartilage using synthetic biodegradable polymers, 2003노인섭
◾ Fabrication of Drug-loaded ePTFE Hybrid Grafts with Biodegradable Layers, 2003노인섭
◾ Synthesis of Drug-Containing Micro-Bead Scaffold for Tissue-Engineered Vascular Grafts, 2003노인섭
◾ "박한기, 박영환, 홍성화, 홍충만", Haemocompatibility tests of vascualr grafts, 2003노인섭
◾ Evaluationof expanded polytetrafluoroethylene vascular grafts, 2003노인섭
◾ "Soung Kwang Chong, han Ki Park, Eun Joo Kang, Yun Jung Choi, Young-Hwan Park, Insup Noh", Development of Haemocompatibility Testing Methods of Tissue-Engineering Biomaterials and Products, 2002노인섭
◾ Development of microbead-based scaffold for vascular grafts, 2002노인섭
◾ "정성광, 강은주", Development of ePTFE-Biodegradable Hybrid Scaffold, 2002노인섭
◾ Kyung S. Oh and Elazer R. Edelman, Tissue egineering of the modified expanded poly(tetrafluoroethylene) vascular graft and drug transpo, 2002노인섭
◾ Elazer R. Edelman, Designs of expanded poly(tetrafluoroethylene) vascular grafts, 2000노인섭
◾ Elazer R. Edelman, Cellular ingrowht of surface-modified expanded poly(tetrafluoroethylene) vascular grafts, 2000노인섭
저역서
1. Injectable Hydrogels for 3D Bioprinting – Biomaterials Science Series, Insup Noh, Xiumei Wang, Sandra Van Vlierberghe, Royla Society Chemistry(England), 2021.07, ISBN 978-1-78801-883-8 (eISBN 978-1-83916-398-2)
2. Biomimetic Medical Materials(Book, Editor Insup Noh), Springer, 2018.11.26 .(Published), https://link.springer.com/book/10.1007/978-981-13-0445-3
3. 노 인섭, 조직공학과 재생의학 (18장 심혈관계) Cardiovascular system in Tissue Engineering and Regeneration Medicine, Ed. By 유지, 이 일우, 군자출판사, 2002
2. 브라운 유기화학 4판, 유기화학교재연구회, 자유아카데미, 2006
3. 생체재료학, 자유아카데미, 2009
4. 브라운 유기화학 5판, 유기화학교재연구회, 자유아카데미, 2009
5. 조직공학과 재생의학 2판 46장 조직공학 인공혈관, (2009), 군자출판사
6. Handbook of intelligent scaffolds for tissue engineering and regenerative medicine, Pan Stanford Publishing, USA, Ed Gilson Khang, Chapter 9, Hyaluronan-based hydrogel scaffolds, (2012)
7. 조직공학재생의학실험, 조직공학재생의학회(저), 자유아카데미출판사, 2012.12.20 (3부 조직공학기법, 22장 하이드로젤 기반 조직배양기법, 27장 혈관조직재생)
8. Handbook of intelligent scaffolds for tissue engineering and regenerative medicine, Pan Stanford Publishing, USA, Ed Gilson Khang, Chapter 9, Hyaluronic Acid-based Hydrogel as a Scaffold for Tissue engineering, Insup Noh, 2014
9. 고분자공학개론 3판 (공역), 자유아카데미, 2015
10. 브라운의 유기화학 7판 (공역), 사이플러스, 2016
11. 조직공학과 3D 바이오 프린팅(노인섭,최익준), 비즈프레스 2016
12. Handbook of intelligent scaffolds for tissue engineering and regenerative medicine(2판), Pan Stanford Publishing, USA, Ed Gilson Khang, Chapter 9, Hyaluronan-based hydrogel scaffolds 2nd edition (2017)
13. 조직공학재생의학,40장 스마트 생체재료 (2018)군자출판사
14. Biomimetic Medical Materials, From Nanotechnology to 3D Bioprinting,(Editor), Springer Publishing Company, 2018 September
◾ Insup Noh, Injectable hydrogels for 3D Bioprinting (3챕터-챕터1(1-20페이지), 챕터2(21-47페이지), 챕터18(435-470 페이지) 및 preface 작성함), 편서, 178-8018-83-4, Royal Society Chemistry, 2021노인섭
◾ 지은이: David R. Klein, (클라인의) 유기화학, 역서, 9791188731145, 사이플러스, 2020노인섭
◾ Insup Noh, Overviews of Biomimetic Medical Materials, 저서, 978-98-11304-44-6, Springer, 2018노인섭
◾ Insup Noh, Current status of development and intellectual properties of biomimetic medical materials, 저서, 978-98-11304-44-6, Springer, 2018노인섭
◾ Insup Noh, Biomimetic Medical Materials, 편서, 9789811304446, Springer, 2018노인섭
◾ 유지,이일우,김문석 편저, 재생의학. Vol.1-2, 9791159552502, 군자출판사, 2018노인섭
◾ Gilson Khang, Handbook of Intelligent Scaffolds 2nd Edition- Book Chapter, 저서, 978-1-315-36469-8, Pan Stanford Publishing Pte. Ltd., 2017노인섭
◾ 저자: 노인섭,최익준, 조직공학과 3D 바이오프린팅, 저서, 979-11-86331-19-4, 비즈프레스, 2016노인섭
◾ 지은이: Brown,Iverso, (브라운의) 유기화학, 역서, 978-89-92603-83-6, 사이플러스, 2016노인섭
◾ 저자: Joel R. Fried, 고분자공학개론, 역서, 9791158080303, 자유아카데미, 2015노인섭
◾ 한국조직공학·재생의, 조직공학 재생의학실험, 편서, 978-89-7338-965-0, 자유아카데미, 2012노인섭
◾ Gilson Khang, Handbook of intelligent scaffolds for tissue engineering and regnerative medicine, 편서, 978-981-4267-85-4, Pan Stanford Publishing, USA, 2012노인섭
◾ 조직공학과 재생의학 2판, 기타, 군자출판사, 2009노인섭
◾ The Handbook of Intelligent Scaffold for Regenerative Medicine, 기타, 2009노인섭
◾ 산업기술개발 30년(정밀화학), 기타, 한국산업기술진흥회, 2009노인섭
◾ 브라운 유기화학 5판, 기타, 자유아카데미, 2009노인섭
◾ 한국생체재료학회, 생체재료학, 저서, 978-89-7338-776-2, 자유아카데미, 2009노인섭
◾ 한국생체재료학회, 생체재료학, 저서, 9788973387762, 자유아카데미, 2009노인섭
◾ Paula Yurkanis Bruice [저], 유기화학, 역서, 9788973387120, 자유아카데미, 2008노인섭
◾ 인공장기 개발에 참여하는 과학자의 견해, 기타, 생명공학정보, 2007노인섭
◾ 산업기술백서(2006년 정밀화학산업동향), 기타, 한국산업기술진흥회, 2006노인섭
◾ 노인섭, 브라운 유기화학 4판, 저서, 자유아카데미, 2006노인섭
◾ 노인섭, 조직공학과 재생의학, 저서, 군자출판사, 2002노인섭
특허
1. 키토산-폴리에틸렌옥사이드를 기저로 하는 하이드로젤과 이의 제조방법 [Chitosan-Poly(Ethylene Oxide)-Based Bioactive Hydrogel and Manufacturing Method Therefor] 국내등록 (등록 10-0671965; 등록일: 2007
5. 키토산 또는 히알루론산-폴리에틸렌옥사이드 및 키토산-히알루론산- 폴리에틸렌옥사이드를 기저로 하는 하이드로젤과 이의 제조방법 [Chitosan or Hyaluronic acid-poly(ethylene oxide)-based Hydrogel and Manufacturing Method Therefor], 등록번호 10-0849185 (등록일자 2008.07.23) (발명인: 노인섭, 김건우, 박용두, 이규백, 황순정, 선경, PCT 출원: PCT/KR2006/003383 (2006.08.28)
6. 조직재생을 위한 히알루론산-기초된 주사형 하이드로겔, 등록일 : 2007년 07월 04일, 등록번호 : 10-0737954
7. 골조직침투형 골유착 임플란트, 등록특허 10-0824726(등록일 2008)
8. 사이클로트론 이온 빔 조사에 의한 고분자의 저분자량으로의 조절방법 및 그 응용[Method of control of polymeric molecular weight by irradiation of cyclotron ion beams and its applications therefor], 등록번호((10-0880899; 2009년 1월 21일)
9. 불포화 생물분자를 이용한 키토산 하이드로젤과 이의 제조방법 [Unsaturated Biomolecule Grafting-based Chitosan Hydrogel and Manufacturing Method Therefor], (등록번호 10-0888748-0000 (2009)
10. 리포아마이드가 결합된 고분자 화합물과 이의 제조방법 (출원번호: 10-2009-0035818)-2009.04.24, 등록번호(10-1100803)- PCT/KR2009/006320(2009/11/13); 2009-10-28(유럽-#09-174370.8); (미국 2009-10-29출원 2014-03-10 등록 #12/608,126)
11. 리포산이 결합된 화합물과 이의 제조방법(출원번호: 10-2009-00789)-2009 등록번호 10-1161640 (2012년 06월 26일)
12. 다공성 하이드로젤 및 그 제조방법 (출원번호: 10-2009-0113030), 등록번호: 1178389 (등록일: 2012.08.24.)
13. 아미노살리실산이 결합된 고분자 화합물 (10-2011-0004180), 국내특허출원, (출원일 2011.01.14.), 등록번호 1101242399 (2013.03.06.)
14. 조직고정 기능성의 필름, 노인섭 우정훈 조성연 김수미, 등록번호: 1189459 (등록일자 2012.10.04.) 출원번호, 10-2011-0002415,
15. 트리스(2-카복시에틸)포스핀이 결합된 고분자 화합물 , 노인섭, 조성연, 김수미, 2011년 9월(출원인:등록번호 10-1277286 (등록일자 : 2013.06.14.) PCT 출원일: 2012.09.07./등록 2013-06
16. 생분해성 하이브리드 하이드로젤 및 그 제조방법, 등록번호 101421933 (등록일 2014.07.16.),
17. 고분자-세라믹 하이브리드 젤 및 그것의 제조방법(Polymer-Ceramic Fusion Hybrid Gel And Method For Preparing The Same) 등록번호 10-1657235호 (2016.09.07.)
18. 연조직과 경조직 동시 재생을 위한 다공성, 생분해성 및 서방성 특성을 가진 다층 하이브리드 지지체, 등록번호 10-1655435호 (2016.09.01.), 출원, 출원번호 10-2014-0123042(2014.09.16.)
19. 탄성고분자-세라믹 하이브리드 필름 및 이의 제조방법, 2017년 03월 02일 출원 (10-2017-0027300) (사사-중견핵심, 우선출원권 2016년 10월 06일)
20. 탄성 및 기계적 물성이 우수한 탄성고분자-세라믹 하이브리드 필름 및 이의 제조방법, 2017년 03월 02일 출원 (10-2017-0027301) (사사-중견핵심, 우선출원권 2016년 10월 06일)
21. 기계적 물성이 우수한 고분자-세라믹 하이브리드 필름 및 이의 제조방법, 노인섭, 디판카르 다스, 방수미, 2017년 03월 02일 출원 (10-2017-0027302) (사사-중견핵심, 우선출원권 2016년 10월 06일)
◾ 그라프트 공중합체와 젤라틴 가교물을 포함하는 히알루론산 하이드로젤 및 이의 제조방법, 특허 등록, 대한민국, 10-1974745, 2019노인섭
◾ 친수성 고분자 및 소수성 고분자를 포함하는 하이드로젤 입자 및 그의 제조방법, 특허 등록, 대한민국, 10-1781288, 2017노인섭
◾ 고분자-세라믹 융합 하이브리드 젤 및 그것의 제조방법, 특허 등록, 대한민국, 10-1657235, 2016노인섭
◾ 연조직과 경조직 동시 재생을 위한 다공성, 생분해성 및 서방성 특성을 가진 다층 하이브리드 지지체, 특허 등록, 대한민국, 10-1655435, 2016노인섭
◾ 바이오필름 방지를 위한 고분자 의, 특허 등록, 대한민국, 10-1438270, 2014노인섭
◾ 생분해성 하이브리드 하이드로젤 ?, 특허 등록, 대한민국, 10-1421933, 2014노인섭
◾ 리포아마이드가 결합된 고분자화합, 특허 등록, 미국, 8724013, 2014노인섭
◾ 트리스(2-카복시에틸) 포스핀이 결합된 고분자 화합물(Phosphine 작용기를 가진 고분자 화합물 제조 및 응용), 특허 등록, 대한민국, 10-1277286, 2013노인섭
◾ 아미노살리실산이 결합된 고분자 화합물, 특허 등록, 대한민국, 10-1242399, 2013노인섭
◾ 조직고정 기능성의 필름, 특허 등록, 대한민국, 10-1189459, 2012노인섭
◾ 다공성 하이드로젤 및 그 제조방법, 특허 등록, 대한민국, 10-1178389, 2012노인섭
◾ 리포산이 결합된 화합물과 이의 제, 특허 등록, 대한민국, 10-1161640, 2012노인섭
◾ 리포아마이드가 결합된 고분자화합물과 이의 제조방법, 특허 등록, 대한민국, 10-1100803, 2011노인섭
◾ Phosphine 작용기를 가진 고분자 화합물 제조 및 응용, 특허 출원, 대한민국, 10-2011-0091941, 2011노인섭
◾ 아미노살리실산이 결합된 고분자 화합물, 특허 출원, 대한민국, 10-2011-0004180, 2011노인섭
◾ 조직고정 기능성의 필름, 특허 출원, 대한민국, 10-2011-0002415, 2011노인섭
◾ 다공성 하이드로젤 및 그 제조방법, 특허 출원, 대한민국, 10-2009-0113030, 2009노인섭
◾ Synthesis of lipoamide-grafted hight molecular compound and method therefor, 특허 출원, PCT/KR2009/006320, 2009노인섭
◾ Synthesis of lipoamide-grafted high molecular compound and method therefor, 특허 출원, 미국, 12/608,126, 2009노인섭
◾ Synthesis of lipoamide-grafted high molecular compound and method therefor, 특허 출원, 유럽, 09174370.8, 2009노인섭
◾ 리포산이 결합된 화합물과 이의 제조방법, 특허 출원, 대한민국, 10-2009-0078659, 2009노인섭
◾ 리포아마이드가 결합된 고분자 화합물과 이의 제조방법, 특허 출원, 대한민국, 10-2009-0035818, 2009노인섭
◾ 불포화 생물분자를 이용한 키토산 하이드로젤과 이의제조방법, 특허 등록, 대한민국, 10-0888748-00-00, 2009노인섭
◾ 이온 빔 조사에 의해 제조된 분자량이 조절된 생분해성 물질 및 그의 제조방법, 특허 등록, 대한민국, 10-0880899-00-00, 2009노인섭
◾ 키토산 또는 히알루론산-폴리에틸렌옥사이드 및키토산-히알루론산-폴리에틸렌옥사이드를 기저로 하는하이드로젤과  이의 제조방법, 특허 등록, 대한민국, 10-0849185-00-00, 2008노인섭
◾ Chitosan Or Hyalurnic Acid-poly(Ethylene Oxide)-And Chitosan-Hyaluroinc Acid-Poly(Ethylene Oxide)-Based Hydrogel And Manufacturing Method Therefor, 특허 출원, 일본, 2008-544236, 2008노인섭
◾ Chitosan Or Hyalurnic Acid-poly(Ethylene Oxide)-And Chitosan-Hyaluroinc Acid-Poly(Ethylene Oxide)-Based Hydrogel And Manufacturing Method Therefor, 특허 출원, 미국, 12/083.705, 2008노인섭
◾ 키토산-폴리에틸렌옥사이드를 기저로 하는 하이드로젤과 이의 제조방법, 특허 등록, 대한민국, 10-0671965-00-00, 2007노인섭
◾ Chitosan Or Hyalurnic Acid-poly(Ethylene Oxide)-And Chitosan-Hyaluroinc Acid-Poly(Ethylene Oxide)-Based Hydrogel And Manufacturing Method Therefor, 특허 출원, PCT/KR2006/003383, 2006노인섭
◾ Hybrid artificial Blood vessel comprising biodegradable polymer supporting later and manufacturing process therefor, 특허 출원, 미국, 10/509.314, 2005노인섭
◾ Hybrid artificial Blood vessel comprising biodegradable polymer supporting later and manufacturing process therefor, 특허 출원, 미국, PCT/KR2003/00611, 2003노인섭
◾ 약물방출 기능을 가진 생분해성 고분자를 이용한 조직공학용 생분해성 고분자 지지체 및 그 제조 방법, 특허 등록, 대한민국, 10-2002-0020496, 2002노인섭
◾ 생분해성 고분자 지지체층을 포함하는 하이브리드인공혈관 및 그의 제조 방법, 특허 등록, 대한민국, 10-2002-0016866, 2002노인섭
연구프로젝트
Research Projects
- Hydrogels for Stem Cells and 3D bioprinting.
- Development of dental scaffolds
- Development of in situ hydrogel for cartilage regeneration
- Development of biodegradable scaffold for vascular graft tissue engineering
- Development of hydrogel for bone tissue regeneration with bioactive molecules delivery
- Development of dermal fillers
◾ 3D 프린팅 반월상연골 재생을 위한 말레산-폴리(프로필렌 글라이콜) 기반의 고탄성 터프 젤 (무용매 합성) 개발, 한국연구재단, 2019.09.~2020.08.노인섭
◾ 압출-집적화된 첨단 3D 바이오프린팅 시스템 구축, 한국연구재단, 2019.07.~2020.06.노인섭
◾ 교내 러닝/아이디어 팩토리 개선을 통한 창의 교육 활성화 방안, 산학협력단, 2018.07.~2018.10.노인섭
◾ 혈액 내 순환종양세포를 활용한 유방암 예후·예측용 NGS 기반 유전자 패널 개발, 중소기업기술정보진흥원, 2017.10.~2019.09.노인섭
◾ Recent trends on bioinks for 3D printing (3D 프린팅 바이오잉크의 최신동향), 산학협력단, 2017.01.~2017.12.노인섭
◾ 알지네이트 기반의 하이브리드 생체재료, 산학협력단, 2017.01.~2017.12.노인섭
◾ in situ injectable hydrogel, 산학협력단, 2017.01.~2017.12.노인섭
◾ 방사선 의공학(X-Care/Cure) 산업의 실태조사와 미래발전 방안 연구, 한국연구재단, 2016.12.~2017.05.노인섭
◾ 골/혈관 복합조직 동시재생을 위한 잉크젯 조직 스페로이드(tissue spheroid) 젤 로딩된 히알론산/삼인산칼슘-기반의 in situ 3D 바이오프린팅 젤 지지체 연구, 한국연구재단, 2015.11.~2018.10.노인섭
◾ 국제협력 구축 지원, (주)영사이언스, 2015.10.~2016.08.노인섭
◾ 골과 연골의 복잡한 결손 조직재생을 위한 생체모방 기능의 구배형 조직재생용 생체재료에 대한 공동연구, 한국연구재단, 2014.12.~2017.11.노인섭
◾ [LINC3차]푸르고-의료기기 표면개질 기술의 개발, LINC, 2014.07.~2014.11.노인섭
◾ 생체모방 및 조직재생 기능의 의료용 재료 한중 심포지엄, 한국연구재단, 2014.07.~2015.06.노인섭
◾ Biological Evaluation of Micro-patterned Hyaluronic Acid Hydrogel for Bone Tissue Engineering, 산학협력단, 2014.04.~2015.08.노인섭
◾ Synthesis and in vitro Charcterizations of Porous Carboxymethyl Cellulose-Poly(ethylene oxide) Hydrogel Film, 산학협력단, 2014.03.~2015.09.노인섭
◾ 서울과학기술대-원자력의학원 협력구축 사업연구, 산학협력단, 2013.11.~2014.02.노인섭
◾ 교내연구소 역량평가 기획연구, 산학협력단, 2013.10.~2014.02.노인섭
◾ 2013년 청소년 미래상상 기술경진대회 시작품 제작(낙하 방지 가방걸이), 한국산업기술진흥원, 2013.08.~2013.11.노인섭
◾ 온도감응성 입자가 포함된 셀룰로오스 하이드로젤의 생체적합성 평가, 산학협력단, 2013.03.~2014.02.노인섭
◾ 가교결합 된 히알루론산 필름의 물리적/생물학적 평가, 산학협력단, 2013.03.~2014.02.노인섭
◾ 국제심포지움 개최, 장은공익재단, 2012.10.~2012.10.노인섭
◾ 2012년 청소년 미래상상 기술경진대회 시작품 제작(오뚝이 휴지 꽂이), 지식경제부, 2012.08.~2012.11.노인섭
◾ 연골 수복에 적합한 platelet rich plasma 및 바이오융합 지지체 개발, 한국보건산업진흥원, 2012.04.~2015.03.노인섭
◾ 비활성 폴리펩타이드 형태의 골형성단백질과 하이드로겔을 이용한 추간체유합보형재 개발, 연세대학교산학협력단, 2011.10.~2013.09.노인섭
◾ 향균활성을 유도하는 표면처리기술을 응용한 중이환기관 개발, 동국대학교산학협력단, 2011.03.~2011.10.노인섭
◾ 친환경 소재제품 분야 전문인력 양성을 위한 산학융합형 교육시스템 구축 (5차년도), 한국환경산업기술원, 2010.08.~2011.07.노인섭
◾ 슬관절 골관절염에서 주사형 히알루론산 관절염 치료제 개발, 한미약품(주), 2010.07.~2011.06.노인섭
◾ 연골수복용 바이오융합 수화겔 지지체 개발, 한국보건산업진흥원, 2010.05.~2012.03.노인섭
◾ 사이클로트론 이온 빔에 의한 조직공학용 키토산 코팅된 다공성 하이브리드 지지체의 조직재생기능 향상유도, 한국연구재단, 2010.05.~2012.03.노인섭
◾ Dermal filler 용 Hyaluronic acid 하이드로젤 개발, 한미약품(주), 2009.10.~2010.09.노인섭
◾ 친환경 소재제품 분야 전문인력 양성을 위한 산학융합형 교육시스템 구축 (4차년도), 한국환경기술진흥원, 2009.08.~2010.07.노인섭
◾ 화학적으로 자가 가교결합하는 주사형 콘드로이틴 설페이트 하이드로젤 개발, 한국보건산업진흥원, 2009.04.~2010.03.노인섭
◾ 사이클로트론 이온빔 조사를 이용한 조직공학 하이브리드 지지체 개발, 한국과학재단, 2009.04.~2010.03.노인섭
◾ 친환경 소재제품 분야 전문인력 양성을 위한 산학융합형 교육시스템 구축 <3차년도>, 한국환경기술진흥원, 2008.09.~2009.07.노인섭
◾ 화학적으로 자가 가교결합 하는 주사형 콘드로이틴 설페이트 하이드로젤 개, 한국보건산업진흥원, 2008.05.~2009.03.노인섭
◾ 생분해성 조직공학지지체 상의 사이클로트론 이온빔 처리에 의한 조직재생속도 조절-2, 한국과학재단, 2008.04.~2009.03.노인섭
◾ 친환경 소재제품 분야 전문인력 양성을 위한 산학 융합형 교육시스템 구축 <2차년도>, 한국환경기술진흥원, 2007.09.~2008.08.노인섭
◾ 체내삽입의료기기의 물리/화학적 특성평가를 위한 시험방법 개발 연구 <1차년도>, 식품의약품안전청, 2007.08.~2008.04.노인섭
◾ 생리활성물질 코팅에 의한 내피세포 유도성스텐트개발, (주)제노스, 2007.08.~2009.02.노인섭
◾ 생분해성 조직공학지지체 상의 사이클로트론 이온빔 처리에 의한 조직재생 속도조절, 한국과학재단, 2007.04.~2008.03.노인섭
◾ 고분자성 지지체와 줄기세포를 이용한 인공혈관의 생체내 활성 및 안전성 연구(1차년도), 식품의약안전청, 2007.02.~2007.11.노인섭
◾ 싸이클로트론 이온빔을 이용한 키토산 분자량 조절평, 한국과학재단, 2006.04.~2007.03.노인섭
◾ 양성자 빔을 이용한 POLYTETRAFLUOROETHYLENE 표명개질유도, 한국원자력연구소, 2006.04.~2007.03.노인섭
◾ 바이오리엑터를 이용한 성인환자를 위한 조직공학 인공혈관 개발, 한국산업기술재단, 2005.09.~2006.08.노인섭
◾ Cyclotron 이온빔 조사에 의한 인공혈관 지지체의 표면개질, 한국과학기술평가원, 2004.06.~2005.05.노인섭
◾ 조직공학 인공혈관의 기계적 특성 평가(3), 식품의약품안전청, 2004.04.~2004.11.노인섭
◾ 바이오리액터를 이용한 성인환자를 위한 조직공학 인공혈관 개발, 한국산업기술재단, 2003.12.~2005.08.노인섭
◾ 생분해성 폴리락타이드 고분자 지지체 층을 가지는 하이브리드 ePTFE인공혈관의 개발과 평가, 한국학술진흥재단, 2003.07.~2004.06.노인섭
◾ 조직공학용 인공혈관의 기계적 특성과 혈액내의 변화에 대한 평가기술개발, 식품의약품안전청, 2003.03.~2003.11.노인섭
◾ 조직재생을 위한 약물이 포함된 생분해성 생명소재 개발, (주)엠티티, 2002.04.~2003.03.노인섭
◾ 조직공학 재료와 제품의 혈액적합성 평가기술 개발, 식품의약품안전청, 2002.04.~2002.11.노인섭
◾ 응집제를 이용한 제지 페수 처리, 중소기업청, 2001.05.~2002.04.노인섭
◾ 조직공학에 의한 인공혈관용 지지대 개발 연구, (주)이노테크메디칼, 2000.09.~2001.03.노인섭
수상
◾ 생체재료 생애업적, 생체재료석학펠로, 세계생체재료과학공학연합회, 2020노인섭
◾ 생애업적, 한국생체재료학회 대표, 세계 생체재료 과학 공학 학회 연합회, 2020노인섭
◾ recent trends in bioinks for 3d printing, 2018 Biomaterials Research Award, BMC(Biomed Central)-Springer-Nature 출판사, 2019노인섭
◾ 우수논문상, 히스토스템상, 한국생체재료학회, 2019노인섭
◾ 2000 OUTSTANDING INTELLECTUALS OF THE 21ST CENTRY, 2000 OUTSTANDING INTELLECTUALS OF THE 21ST CENTRY~9TH EDITION~, INTERNATIONAL BIOGRAPHICAL CENTER, CAMBRIDGE ENGLAND, 2015노인섭
◾ A, MARQUIS WHO'S WHO IN THE WORLD 2015 32th edition 인명사전 등재, MARQUIS WHO'S WHO IN THE WORLD 2015 32th edition 인명사전 등재, 2015노인섭
◾ MARQUIS WHO'S WHO IN THE WORLD 2015 32th edition 인명사전 등재, MARQUIS WHO'S WHO IN THE WORLD 2015 32th edition 인명사전 등재, MARQUIS WHO'S WHO IN THE WORLD 2015 32th edition 인명사전 등재, 2015노인섭
◾ The Korean Society for Biomaterials joins forces with BioMed Central, 한국생체재료학회 덴티움우수학술논문상, 한국생체재료학회, 2014노인섭
◾ Development of Injectable Hydrogel for Regeneration of Bone and Cartilage, WCPRM2014 (7th World Congress on Preventive and Regenerative Medicine) Keynote Speaker, World Congress on Preventive and Regenerative Medicine, 2014노인섭
◾ 비활성폴리펩타이드 골형성 단백질이 로딩된 히알루론산 다공성 지지체 제조 및 in vitro 골세포 배양평가, 한국생체재료학회 우수논문발표상, 한국생체재료학회, 2014노인섭
◾ MARQUIS WHO'S WHO IN SCIENCE AND ENGNEERING 11th edition 인명사전 등재, MARQUIS WHO'S WHO IN SCIENCE AND ENGNEERING 11th edition 인명사전 등재, MARQUIS WHO'S WH, 2012노인섭
◾ MARQUIS WHO'S WHO IN SCIENCE AND ENGNEERING 11th edition 인명사전 등재, MARQUIS WHO'S WHO IN SCIENCE AND ENGNEERING 11th edition 인명사전 등재, MARQUIS WHO'S WHO, 2012노인섭
◾ 한국생체재료학회 우수포스터상, 한국생체재료학회, 2008노인섭
◾ MARQUIS THE 2009 EDITION OF WHO'S WHO IN THE WORLD 인명사전, WHO'S WHO IN THE WORLD, 2008노인섭
◾ MARQUIS WHO'S WHO IN SCIENCE AND ENGNEERING 인명사전 등재, MARQUIS WHO'S WHO, 2007노인섭
기타(학회활동 등)
1. Korea Society For Biomaterials (president-elect, 2019)
2. Korea FDA, Committee Member of Medical Device Committee (2017-present).
3. Korea FDA, Committee Member of Medical Device Communication Committee(의료기기 소통위원회). 2019.
2. International Conference on Regenerative Biomedical Materials, Program Chairperson, 2013.06, Wuhan, China
3. 조직공학재생의학회-아시아-태평양 부홍보이사, 2014-present
4. 중앙소방기술심의위원회 위원(2011.06.1.-2013.05.31.)
5. 한국조직공학재생의학회 감사(2013-present), 총무이사(2011-2012)
6. 한국화재감식학회 재무이사(2011-present)
7. Organizing Committee of the 2nd TERMIS World Congress 조직위원회 총무위원(Secretary) (2009)
8. The 7th Asian Symposium for Biomedical Materials (ASBM-7) Local Committee Member (2005.10-2006.09)
9. Scientific Program Organizer, The Symposium on the 4th Korea-China Biomaterials and Nano BioTechnology" Jeju-do, Korea (Oct 19-23, 2006)
10. Scientific Organizer, The Symposium on the 5th Korea-China Biomaterials and Nano BioTechnology" Wuhan, China (Oct 12-19, 2007)
11. Guest Editor, Biomedical Material for The Symposium on the 4th Korea-China Biomaterials and Nano BioTechnology" Jeju-do, Korea (2006)

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