연구실 브레인›인물

← 인물 목록

송

송민규

Min-Kyu Song

Yonsei University

10

논문

0

교신저자

2018–2023

활동 기간

Peptide-bio14Oxidation2Gold1

연구 프로필

송민규 님은 2018–2023년 동안 Peptide-bio·Oxidation·Gold 팀에서 총 10편의 논문에 참여했습니다.

주요 주제

#tyrosine peptide#field-effect transistor#wearable#machine learning#chiral plasmonic#plasmonic

주요 공저자

남기태 · 10 남궁석 · 10 권장연 · 10 이윤식 · 7 성태훈 · 6

소개

Min-Kyu Song은 남기태 연구실에서 타이로신·페놀 기반 펩타이드 절연체를 활용한 트랜지스터, 멤리스터, 시냅스 소자 등 생분해성 전자소자 연구를 주도하였다. 2018년부터 2023년까지 펩타이드 기반 과도성(transient) 전자소자 및 뉴로모픽 컴퓨팅 소자 분야에 집중적으로 기여하였으며, 키랄 플라스모닉 관련 논문에도 1편 참여하였다.

참여 논문 (10)

2023· ACS Materials Letters

Phenol-Assisted Electrochemical Metallization of Peptide-Based Bimodal Memristors

2022· Nature Communications

Circularly polarized light-sensitive, hot electron transistor with chiral plasmonic nanoparticles

2022· Journal of Materials Science & Technology

Humidity-induced synaptic plasticity of ZnO artificial synapses using peptide insulator for neuromorphic computing

2022· Nano Research

Research Article Tyrosine-mediated analog resistive switching for artificial neural networks Min-Kyu Song1,2,3,§, Seok Daniel Namgung4,5,§, Hojung Lee1, Jeong Hyun Yoon1, Young-Woong Song1, Kang Hee Cho4, Yoon-Sik Lee6, Jong-Seok Lee1, Ki Tae Nam4,5, and Jang-Yeon Kwon1 (✉)

2021· RSC Advances

Synaptic transistors based on a tyrosine-rich peptide for neuromorphic computing

2021· ACS Applied Electronic Materials

Fully Degradable Memristors and Humidity Sensors Based on a Tyrosine-Rich Peptide

2020· Nature Communications

Proton-enabled activation of peptide materials for biological bimodal memory

2020· Advanced Materials Technologies

Tyrosine‐Rich Peptide Insulator for Rapidly Dissolving Transient Electronics

2020· Physical Chemistry Chemical Physics

Quantitative analysis of the coupling between proton and electron transport in peptide/manganese oxide hybrid films

OxidationPeptide-bio

2018· ACS Applied Materials & Interfaces

Physically Transient Field-Effect Transistors Based on Black Phosphorus