P
Pil J. Yoo
Researcher at Sungkyunkwan University
Publications - 206
Citations - 10408
Pil J. Yoo is an academic researcher from Sungkyunkwan University. The author has contributed to research in topics: Graphene & Chemistry. The author has an hindex of 43, co-authored 180 publications receiving 8626 citations. Previous affiliations of Pil J. Yoo include Harvard University & Chung-Ang University.
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Journal ArticleDOI
Virus-Enabled Synthesis and Assembly of Nanowires for Lithium Ion Battery Electrodes
Ki Tae Nam,Dong Wan Kim,Pil J. Yoo,Chung Yi Chiang,Nonglak Meethong,Paula T. Hammond,Yet-Ming Chiang,Angela M. Belcher +7 more
TL;DR: Combining virus-templated synthesis at the peptide level and methods for controlling two-dimensional assembly of viruses on polyelectrolyte multilayers provides a systematic platform for integrating these nanomaterials to form thin, flexible lithium ion batteries.
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Self-formed grain boundary healing layer for highly efficient CH 3 NH 3 PbI 3 perovskite solar cells
Dae-Yong Son,Jin-Wook Lee,Y. Choi,In Hyuk Jang,Seonhee Lee,Pil J. Yoo,Hyunjung Shin,Namyoung Ahn,Mansoo Choi,Dongho Kim,Nam-Gyu Park +10 more
TL;DR: In this article, the grain boundaries in thin-film perovskite solar cells are passedivated by using excess CH3NH3I in the precursor solution, achieving an average power conversion efficiency of 20.1% over 50 cells (best cell at 20.4%).
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Green Synthesis of Biphasic TiO2–Reduced Graphene Oxide Nanocomposites with Highly Enhanced Photocatalytic Activity
TL;DR: The synthesized biphasic TiO(2)-RGO nanocomposites have been shown to effectively reduce the electron-hole recombination rate, and it is anticipated that they will be utilized as anode materials in lithium ion batteries.
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Spontaneous assembly of viruses on multilayered polymer surfaces
TL;DR: It is demonstrated that this viral-assembled monolayer can be a biologically tunable scaffold to nucleate, grow and align nanoparticles or nanowires over multiple length scales and represents an interface that provides a general platform for the systematic incorporation and assembly of organic, biological and inorganic materials.
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An Ultraviolet-Curable Mold for Sub-100-nm Lithography
TL;DR: A novel UV-curable mold that is stiff enough for replicating dense sub-100-nm features even with a high aspect ratio and allows for flexibility when the mold is prepared on a flexible support such that large area replication can be accomplished.