Lingling Wang
Sungkyunkwan University
11 Papers
Lingling Wang is an academic researcher from Sungkyunkwan University. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 3, co-authored 5 publications.
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Papers
Moving beyond bimetallic-alloy to single-atom dimer atomic-interface for all-pH hydrogen evolution.
Ashwani Kumar,Viet Q. Bui,Jinsun Lee,Lingling Wang,Amol R. Jadhav,Xinghui Liu,Xiaodong Shao,Yang Liu,Jianmin Yu,Yosep Hwang,Huong T. Bui,Sara Ajmal,Min Gyu Kim,Seong-Gon Kim,Gyeong-Su Park,Yoshiyuki Kawazoe,Hyoyoung Lee +16 more
TL;DR: In this article, a facile strategy to obtain NiCo-SAD on N-doped carbon was developed via in-situ trapping of metal ions followed by pyrolysis with precisely controlled N-moieties.
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Unraveling the Synergy of Chemical Hydroxylation and the Physical Heterointerface upon Improving the Hydrogen Evolution Kinetics.
Yang Liu,Xinghui Liu,Xiaoshan Wang,Hui Ning,Taehun Yang,Jianmin Yu,Ashwani Kumar,Yongguang Luo,Hongdan Wang,Lingling Wang,Jinsun Lee,Amol R. Jadhav,Han Hu,Mingbo Wu,Min Gyu Kim,Hyoyoung Lee +15 more
TL;DR: In this paper, the authors designed a delicate strategy to realize the electrochemical hydroxylation modification in KOH with moderate concentration (HOM-NiO) and to channel rapid hydrogen spillover at the heterointerface of HOMNiO and Cu, ensuring an enhanced HER kinetic.
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Selectively Regulating the Chiral Morphology of Amino Acid-Assisted Chiral Gold Nanoparticles with Circularly Polarized Light.
Hongdan Wang,Yang Liu,Jianmin Yu,Yongguang Luo,Lingling Wang,Taehun Yang,Bikshapathi Raktani,Hyoyoung Lee +7 more
TL;DR: This work provides a promising alternative strategy to produce high-chirality nanomaterials that can be applied in biomedicine and enantiomer photocatalytic reaction.
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A conjugated plier-linked nano-spacing graphite network for sodium-ion battery
Yongguang Luo,Lingling Wang,Do-Young Kim,Qian Li,Yingbo Kang,Yang Liu,Jianmin Yu,Hongdan Wang,Hyoyoung Lee +8 more
TL;DR: A plier-linked graphite network (PGN) with conjugated linkers was proposed in this article to provide additional storage sites and sufficient nano-meter level wide two-dimensional spaces for sodium-ion access.
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