Y
Yoon Young Lee
Researcher at Seoul National University
Publications - 12
Citations - 1158
Yoon Young Lee is an academic researcher from Seoul National University. The author has contributed to research in topics: Chirality (chemistry) & Benzene. The author has an hindex of 8, co-authored 11 publications receiving 697 citations.
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Journal ArticleDOI
Amino-acid- and peptide-directed synthesis of chiral plasmonic gold nanoparticles
Hye-Eun Lee,Hyo-Yong Ahn,Jungho Mun,Yoon Young Lee,Minkyung Kim,Nam Heon Cho,Kiseok Chang,Wook Sung Kim,Wook Sung Kim,Junsuk Rho,Ki Tae Nam +10 more
TL;DR: A strategy for synthesizing chiral gold nanoparticles that involves using amino acids and peptides to control the optical activity, handedness and chiral plasmonic resonance of the nanoparticles is developed and it is anticipated that this strategy will aid in the rational design and fabrication of three-dimensional chiral nanostructures for use in plAsmonic metamaterial applications.
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Concave Rhombic Dodecahedral Au Nanocatalyst with Multiple High-Index Facets for CO2 Reduction
Hye-Eun Lee,Ki Dong Yang,Sangmoon Yoon,Hyo-Yong Ahn,Yoon Young Lee,Hyejin Chang,Dae Hong Jeong,Yoon-Sik Lee,Miyoung Kim,Ki Tae Nam +9 more
TL;DR: It is demonstrated that the concave RD exhibits superior electrocatalytic performance for the selective conversion of CO2 to CO in aqueous solution and both the binding energy of Au-S and the aromatic geometry of 4-ATP are major determinants of Au atom deposition during growth.
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Cysteine-encoded chirality evolution in plasmonic rhombic dodecahedral gold nanoparticles
Hye-Eun Lee,Ryeong Myeong Kim,Hyo-Yong Ahn,Yoon Young Lee,Gi Hyun Byun,Sang Won Im,Jungho Mun,Junsuk Rho,Ki Tae Nam +8 more
TL;DR: A systematic approach to modulate the chirality of single particles by controlling the kinetics is described and a new optical response is achieved by assembling chiral nanoparticles into a film.
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Plasmonic metamaterials for chiral sensing applications
TL;DR: The principles of most recent issues in chiral sensing applications of plasmonic metamaterials are discussed, including suggested formulas for signal enhancement of chiroptical plAsmonic sensors, and studies on various platforms that employ different sensing mechanisms.