2008.03 - 2012.02 POSTECH Dept. of Chemical Engineering (B.S.)
2012.03 - 2018.02 POSTECH Dept. of Chemical Engineering (Ph.D.)
2025.10 - Present Seoul National University of Science and Technology / Associate Professor
2024.02 - 2025.09 Seoul National University of Science and Technology / Assistant Professor
2021.03 - 2024.01 Kumoh National Institute of Technology / Assistant Professor
2019.07 - 2021.02 University of North Texas / Post Doc.
2019.04 - 2019.06 Harvard University / Post Doc.
2018.03 - 2019.03 POSTECH Center for Advanced Soft Electronics / Post Doc.
organic/inorganic semiconductors, flexible electronics, interface/surface engineering, thin film processing, sensors, memory, nanocarbons(CNT, graphene), electrocatalysts
◾ Structure–Transport–Ion Retention Coupling for Enhanced Nonvolatile Artificial Synapses, Advanced Functional Materials, 2026, e21650
◾ Fundamental Control of Cation-Anion Interactions Governing Retentive Behavior in Organic Synaptic Transistor, ACS Nano, 2025, 19, 42783-42795
◾ Tailored Zwitterion Electrolyte-Driven Electric Double Layer Dynamics for Enhanced Ion Retention in Artificial Synapses, Advanced Functional Materials, 2025, 35, 2513684
◾ Inter-Ion Mutual Repulsion Control for Nonvolatile Artificial Synapse, Advanced Functional Materials, 2025, 35, 2412012
◾ Unveiling the Role of Side Chain for Improving Nonvolatile Characteristics of Conjugated Polymers-Based Artificial Synapse, Advanced Science, 2024, 11, 2400304
◾ Direct Growth of Highly Stable Patterned Graphene on Dielectric Insulators using a Surface-Adhered Solid Carbon Source, Advanced Materials, 2018, 30, 1706569
◾ Heterogeneous Solid Carbon Source-Assisted Growth of High-Quality Graphene via CVD at Low Temperatures, Advanced Functional Materials, 2015, 26, 562-568
◾ Stretchable Conductive Fibers: A Quantitative and Strategic Review from Materials to Applications, Journal of Materials Research and Technology, 2025이은호
◾ Fundamental Control of Cation-Anion Interactions Governing Retentive Behavior in Organic Synaptic Transistor, ACS Nano, 2025이은호
◾ Structure–Transport–Ion Retention Coupling for Enhanced Nonvolatile Artificial Synapses, Advanced Functional Materials, 2025이은호
◾ Nanoweb structuring for enhanced ion doping efficiency and long-term plasticity of organic artificial synapses, CHEMICAL ENGINEERING JOURNAL, vol.525, 2025이은호
◾ Harnessing glycol–alkyl copolymerization to realize nonvolatile and biologically relevant synaptic behaviors, Nanoscale Horizons, 2025이은호
◾ Artificial Synaptic Devices Based on P-type and N-type Organic Materials for Advanced Neuromorphic Computing, Korean Journal of Chemical Engineering, 2025이은호
◾ Brain-Inspired Topological Surface Modulation for Advanced Nonvolatility in Organic Artificial Synapses, Small, 2025이은호
◾ 차세대 소듐 이온 배터리 안정성 및 용량 향상을 위한 전극 소재 연구 동향, 접착 및 계면, vol.26 No.3 pp.81~90, 2025이은호
◾ Magnetically Aligned Tetragonal FeS as Anode for Improved Rate Capability in Sodium Ion Batteries, Advanced Sustainable Systems, 2025이은호
◾ Porous conductive composite-based robust smart insole with linear pressure sensitivity, JOURNAL OF MATERIALS CHEMISTRY C, vol.13 No.36 pp.18913~18923, 2025이은호
◾ Immobilization of molybdenum disulfide nanoparticles onto metal–organic framework-derived carbon nanotubes and carbon cloth templates for flexible sodium-ion battery anodes, Carbon Letters, 2025이은호
◾ Tailored Zwitterion Electrolyte-Driven Electric Double Layer Dynamics for Enhanced Ion Retention in Artificial Synapses, Advanced Functional Materials, 2025이은호
◾ Co-Stimuli-Driven 2D WSe2 Optoelectronic Synapses for Neuromorphic Computing, SMALL, vol.21 No.31, 2025이은호
◾ Liquid Metal Composite-Based Flexible Pressure Sensors with High Sensitivity, ACS APPLIED MATERIALS & INTERFACES, vol.17 No.28 pp.40994~41001, 2025이은호
◾ Protocols for degradation assessment and stability enhancement in perovskite solar cells, CHEMICAL COMMUNICATIONS, vol.61 No.37 pp.6722~6738, 2025이은호
◾ Improving ion uptake in artificial synapses through facilitated diffusion mechanisms, MATERIALS HORIZONS, vol.12 No.14 pp.5225~5235, 2025이은호
◾ Recent Strategies in Channel Modulation for High-Performance Neuromorphic Computing Based on Electrolyte-Gated Organic Synaptic Transistors, KOREAN JOURNAL OF CHEMICAL ENGINEERING, vol.42 No.11 pp.2455~2466, 2025이은호
◾ A heterointerface effect of Mo1-xWxS2-based artificial synapse for neuromorphic computing, CHEMICAL ENGINEERING JOURNAL, vol.510, 2025이은호
◾ Oxidation-Resistant and Highly Sensitive Cellulose Paper Pressure Sensor for Wearable Electronics, Carbohydrate Polymer Technologies and Applications, 2025이은호
◾ Ion-Induced Phase Changes in 2D MoTe2 Films for Neuromorphic Synaptic Device Applications, ACS NANO, vol.19 No.2 pp.2529~2539, 2025이은호
◾ Nano Horizons: Exploring the untapped power of two-Dimensional materials, Materials Science and Engineering: B, vol.310, 2024이은호
◾ High-Performance Synaptic Devices Based on Cross-linked Organic Electrochemical Transistors with Dual Ion Gel, Advanced Functional Materials, 2024이은호
◾ Ti3C2Tx-MXene based 2D/3D Ti3C2-TiO2-CuTiO3 heterostructure for enhanced pseudocapacitive performance, Chemical Engineering Journal, vol.499, 2024이은호
◾ Novel Intercalation Approach in MXene Using Modified Silica Nanospheres to Enhance the Surface Charge Density for Superior Triboelectric Performance, Advanced Functional Materials, vol.34 No.48, 2024이은호
◾ Controlling Long-Term Plasticity in Neuromorphic Computing Through Modulation of Ferroelectric Polarization, ACS Applied Materials & Interfaces, vol.16 No.43 pp.58940~58951, 2024이은호
◾ Modulating Alkyl Groups in Copolymer to Control Ion Transport in Electrolyte-Gated Organic Transistors for Neuromorphic Computing, Small Structures, vol.6 No.1, 2024이은호
◾ Inter-Ion Mutual Repulsion Control for Nonvolatile Artificial Synapse, Advanced Functional Materials, 2024이은호
◾ Crosslinking-induced anion transport control for enhancing linearity in organic synaptic devices, Materials Horizons, vol.11 No.19, 2024이은호
◾ 저온 용액 기반 유연 유기 시냅스 트랜지스터 제작 공정의 최근 연구 동향, 접착 및 계면, vol.25 No.2 pp.43~49, 2024이은호
◾ Enhanced Anion Interaction by Polarity Control on CNTVT:SVS Copolymers for Improving Nonvolatile Characteristics in Neuromorphic Computing, ACS Materials Letters, vol.6 No.5 pp.2329~2338, 2024이은호
◾ Unveiling the Role of Side Chain for Improving Nonvolatile Characteristics of Conjugated Polymers-Based Artificial Synapse, Advanced Science, vol.11 No.16, 2024이은호
◾ 이은호, Synthesis of Graphitic Nanocarbons from Solid Sources, The 20th Anniversary Japan-China-Korea Joint Symposium on Carbon Saves the Earth CSE2025, Phoenix Seagaia Convention Center, 2025이은호
◾ 이은호, Strategic Electrolyte Design for Highly Nonvolatile Artificial Synapse, 6th International Conference on Materials Science and Engineering 2025, Yonsei Univeristy, 2025이은호
◾ 이은호, Defect-Controlled Two-Dimensional TMDs-Based Electrical Synapse, 2025 ISSF ISHA Program, Anvaya Beach Resort Bali, 2025이은호
◾ 이은호, Molecular Design for High-Energy-Efficient Neuromorphic Computing, 4th INTERNATIONAL SYMPOSIUM ON CARBON & FUNCTIONAL MATERIALS FOR ENERGY & ENVIRONMENT (CMEE) ABSTRACT PROCEEDING, 림바 아야나 리조트, 2025이은호
◾ 이은호, Molecular Design for High-Energy-Efficient Neuromorphic Computing Architecture, 4th INTERNATIONAL SYMPOSIUM ON CARBON & FUNCTIONAL MATERIALS FOR ENERGY & ENVIRONMENT (CMEE) ABSTRACT PROCEEDING, 인도네시아 발리, 2025이은호
◾ 이은호, Molecular Design for Nonvolatile Artificial Synapse, 2024년 가을 학술논물발표회 및 임시총회, 여수 엑스포, 2024이은호
◾ 이은호, Molecular Design for Nonvolatile Artificial Synapse, 2024 추계 한국고분자학회 학술대회, 부산 벡스코, 2024이은호
◾ 이은호, Enhancing Nonvolatile Properties is Conjugated Polymers for Artificial Synapses: The Impact of Side Chain Modifications, 2024 한국전기전자재료학회 하계학술대회 프로그램북, 부산 벡스코, 2024이은호
◾ 이은호, Unveiling The Role of Side-Chain for Enhancing Nonvolatile Characteristics of Conjugated Polymers-Based Neuromorphic Devices, 2024 한국유연인쇄전자 춘계 학술대회 초록집, 부산 롯데호텔, 2024이은호
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