연락처 contact
전화 : +82-2-2123-2747
팩스 : +82-2-2123-2747
E-mail : jhkim03@yonsei.ac.kr
연구실 : https://drummerjjang.wixsite.com/naml
교수님 소개 introdution
김정훈 교수는 연세대학교 화공생명공학과에서 기능성고분자를 세부전공으로 하여 “Synthesis of π-Conjugated Polymers Based on Thiophene and Their Electronic Device Applications for Display and Photovoltaic”라는 논문제목으로 2012년 박사학위를 받았습니다. 박사학위 후 2015년 2월까지는 ㈜ Dongjin에서 고분자 전자재료 개발 연구를 진행하였고, 이후 2019년 8월 까지 University of Wollongong 의 Australian Institute for Innovative Materials (AIIM)와 The University of Queensland의 Australian Institute for Bioengineering and Nanotechnology (AIBN) 및 화학공학과에서 Post-doctoral Scholar로 재직하며 탄소소재 및 다양한 무기소재의 합성과 나노구조체합성 기술에 대해 활발히 연구를 수행하며 소재 개발에 대한 다양한 연구를 진행하였습니다. 2019년 9월부터 2021년 2월까지 국민대학교 응용화학부에 조교수로 재직하였고, 유무기 나노소재 합성을 이용한 촉매, 센서소재, 에너지 응요 및 환경오염 저감용 소재를 다양하게 연구하였습니다. 현재 관심 분야는 새로운 나노구조 및 고성능의 무기소재 합성, 그리고 유기소재와의 하이브리드를 통한 새로운 물성의 관찰과 최적화를 통한 촉매, 광학센서, 환경 및 에너지 소재 개발입니다.
주요연구 과제 research
● Design and synthesis of functional polymers
● Development of nanoarchitectured novel metals and metal oxides
● Advanced carbon materials
● Synthesis of organic/Inorganic hybrid materials
● Functional materials for environment and energy applications
주요논문 papers
1. Highly Ordered Mesoporous Carbon/Iron Porphyrin Nanoreactor for the Electrochemical Reduction of CO2, Journal of Materials Chemistry A, 8, 14966-14974 (2020)
2. Large-Scale Synthesis of MOF-Derived SuperporousCarbon Aerogels with Extraordinary Adsorption Capacity for Organic Solvents, Angewandte Chemie International Edition, 59, 2066-2070 (2020)
3. New Strategies for Novel MOF-Derived Carbon Materials Based on Nanoarchitectures, Chem, 6, 19-40 (2020)
4. Designed Patterning of Mesoporous Metal Films Based on Electrochemical Micelle Assembly Combined with Lithographical Techniques, Small, 16, 1902934 (2020)
5. Metal-Organic Frameworks and Their Derived Materials: Emerging Catalysts for Sulfate Radicals-Based Advanced Oxidation Process in Water Purification, Small, 15, 16, 1900744 (2019)
6. Emerging Pt-based electrocatalysts with highly open nanoarchitectures for boosting oxygen reduction reaction, Nano Today, 21, 91-105 (2018)
7. Electrochemical Deposition: An Advanced Approach for Templated Synthesis of Nanoporous Metal Architectures, Accounts of Chemical Research, 51, 1764–1773 (2018)
8. Redox Active Polymers for Energy Storage Nanoarchitectonics, Joule, 1, (4), 739-768 (2017)
9. A Single-Step Synthesis of Electroactive Mesoporous ProDOT-Silica Structures, Angewandte Chemie International Edition, 54, 8407-8410 (2015)
10. Self-doped Conjugated Polymeric Nanoassembly by Simplified Process for Optical Cancer Theragnosis, Advanced Functional Materials, 25,2260-2269 (2015)
11. Nanopatterning of Mesoporous Inorganic Oxide Films for Efficient Light Harvesting of Dye-Sensitized Solar Cells, Angewandte Chemie International Edition, 51, 28, 6864-6869 (2012)
12. Catalytic Polymerization of Anthracene in a Recyclable SBA-15 Reactor with High Iron Content by a Friedel–Crafts Alkylation, Angewandte Chemie International Edition, 51, 12, 2859-2863 (2012)
13. Enhanced Performance of I2-Free Solid-State Dye- Sensitized Solar Cells with Conductive Polymer up to 6.8%, Advanced Functional Materials, 21, 24, 4633-4639 (2011)
14. Solution Processable and Patternable Poly(3,4-alkylenedioxy-thiophene)s for Large Area Electrochromic Films, Advanced Materials, 23, 4168-4173 (2011)
15. Highly Efficient Iodine-free Dye-Sensitized Solar Cell with Solid-State Synthesis of Conducting Polymer, Advanced Materials, 23, 1641-1646, (2011)
