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* 6. Fabricating Genetically Engineered High Power Lithium Ion Batteries Using Multiple Virus Genes, Science, vol.324(5930), 1051-1055 (2009) | * 6. Fabricating Genetically Engineered High Power Lithium Ion Batteries Using Multiple Virus Genes, Science, vol.324(5930), 1051-1055 (2009) | ||
* 7. Peptide-Mediated Reduction of Silver Ions on Engineered Biological Scaffolds, ACS Nano, vol.2(7), 1480-1486 (2008) | * 7. Peptide-Mediated Reduction of Silver Ions on Engineered Biological Scaffolds, ACS Nano, vol.2(7), 1480-1486 (2008) | ||
− | + | =동정= | |
+ | * 도레이재단 화학·재료분야 신진 연구자 선정 | ||
=저서= | =저서= | ||
=수상= | =수상= |
2020년 7월 27일 (월) 10:09 판
이윤정은 서울캠퍼스 공과대학 에너지공학과 교수이자, Advanced Nano-Bio Materials for Energy Lab실장을 겸임하고 있다.
에너지공학과 홈페이지 참고(2019.10.)
학력
- Ph.D. Materials Science and Engineering, Massachusetts Institute of Technology, 2009
- M. S. Inorganic Materials Engineering, Seoul National University 2000
- B. S. Inorganic Materials Engineering, Seoul National University 1998
경력
- 2011 – Present, Assistant Professor, Department of Energy Engineering, Hanyang University
- 2009 – 2011 Postdoctoral Fellow, Materials Sciences Group, Pacific Northwest National Laboratory, U.S.A.
- 2000 – 2003 Research Engineer, Semiconductor R&D Center, Samsung Electronics
연구관심분야
Advanced nanomaterials design for energy conversion and storage devices, lithium rechargeable battery, wearable battery, lithium-air battery, sodium ion battery, bio-inspired membranes for energy conversion and storage
주요연구과제
주요논문
- 1. A Lithium-Oxygen Battery Based on Lithium Superoxide, Nature, 529, 377-382, (2016)
- 2. Study on the Catalytic Activity of Noble Metal Nanoparticles on Reduced Graphene Oxide for Oxygen Evolution Reactions in Lithium-Air Batteries, Nano Letters, 15, 4261-4268, (2015)
- 3. Biomimetic Selective Ion Transport through Graphene Oxide Membranes Functionalized with Ion Recognizing Peptides, Chemistry of Materials, 27(4), 1255-1261 (2015)
- 4. Ruthenium-based Electrocatalysts Supported on Reduced Graphene Oxide for Lithium-Air Batteries, ACS Nano,7(4), 3532-3539 (2013)
- 5. Biologically Activated Noble Metal Alloys Anode Electrodes for Lithium Ion Batteries, Nano Letters, vol.10(7) 2433-2440 (2010)
- 6. Fabricating Genetically Engineered High Power Lithium Ion Batteries Using Multiple Virus Genes, Science, vol.324(5930), 1051-1055 (2009)
- 7. Peptide-Mediated Reduction of Silver Ions on Engineered Biological Scaffolds, ACS Nano, vol.2(7), 1480-1486 (2008)
동정
- 도레이재단 화학·재료분야 신진 연구자 선정