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Byung Yang Lee
Researcher at Korea University
Publications - 72
Citations - 3082
Byung Yang Lee is an academic researcher from Korea University. The author has contributed to research in topics: Carbon nanotube & Graphene. The author has an hindex of 22, co-authored 70 publications receiving 2679 citations. Previous affiliations of Byung Yang Lee include Seoul National University & Lawrence Berkeley National Laboratory.
Papers
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Journal ArticleDOI
Trapped charge-driven degradation of perovskite solar cells
Namyoung Ahn,Kwisung Kwak,Min Seok Jang,Heetae Yoon,Byung Yang Lee,Jong Kwon Lee,Peter V. Pikhitsa,Junseop Byun,Mansoo Choi +8 more
TL;DR: A mechanism for irreversible degradation of perovskite materials in which trapped charges, regardless of the polarity, play a decisive role is uncovered.
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Biomimetic self-templating supramolecular structures
Woo-Jae Chung,Jin-Woo Oh,Jin-Woo Oh,Kyungwon Kwak,Kyungwon Kwak,Byung Yang Lee,Byung Yang Lee,Joel Meyer,Eddie Wang,Eddie Wang,Alexander Hexemer,Seung-Wuk Lee,Seung-Wuk Lee +12 more
TL;DR: The assembly approach provides insight into the complexities of hierarchical assembly in nature and could be expanded to other chiral molecules to engineer sophisticated functional helical-twisted structures.
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Virus-based piezoelectric energy generation
Byung Yang Lee,Jinxing Zhang,Jinxing Zhang,Chris Zueger,Chris Zueger,Woo-Jae Chung,Woo-Jae Chung,So Young Yoo,So Young Yoo,Eddie Wang,Eddie Wang,Joel Meyer,Joel Meyer,Ramamoorthy Ramesh,Ramamoorthy Ramesh,Seung-Wuk Lee,Seung-Wuk Lee +16 more
TL;DR: It is demonstrated that the piezoelectric and liquid-crystalline properties of M13 bacteriophage (phage) can be used to generate electrical energy and that it is possible to modulate the dipole strength of the phage by genetically engineering the major coat proteins of thephage.
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Linker-free directed assembly of high-performance integrated devices based on nanotubes and nanowires
Minbaek Lee,Jiwoon Im,Byung Yang Lee,Sung Myung,Juwan Kang,Ling Huang,Young-Kyun Kwon,Seunghun Hong +7 more
TL;DR: Inert surface molecular patterns were used to direct the adsorption and alignment of NTs and NWs on bare surfaces to form device structures without the use of linker molecules, which is readily accessible to the present semiconductor industry.
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Ultrasensitive carbon nanotube-based biosensors using antibody-binding fragments.
TL;DR: In this article, a method to build ultrasensitive carbon nanotube-based biosensors using immune binding reaction was proposed, where the binding event of target immunoglobulin G (IgG) onto the fragments was detected by monitoring the gating effect caused by the charges of the target IgG.