S
Shengnan Wang
Researcher at Nippon Telegraph and Telephone
Publications - 34
Citations - 796
Shengnan Wang is an academic researcher from Nippon Telegraph and Telephone. The author has contributed to research in topics: Graphene & Graphene nanoribbons. The author has an hindex of 13, co-authored 29 publications receiving 513 citations. Previous affiliations of Shengnan Wang include Tsinghua University & Center for Excellence in Education.
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Journal ArticleDOI
Dendrite-Free Zinc Deposition Induced by Tin-Modified Multifunctional 3D Host for Stable Zinc-Based Flow Battery
Yanbin Yin,Shengnan Wang,Shengnan Wang,Qi Zhang,Song Yang,Nana Chang,Nana Chang,Yanwei Pan,Huamin Zhang,Xianfeng Li +9 more
TL;DR: This work proposes a simple, novel, and effective way to suppress Zn dendrites and improve the performance of ZFBs via a facile and scalable strategy.
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Control of carrier type and density in exfoliated graphene by interface engineering.
TL;DR: Air-stable, n- doped or p-doped graphene sheets on a chip were achieved by modifying the substrates with self-assembled layers of silane and polymer with interfacial effects on the electronic properties of graphene investigated using micro-Raman and Kelvin probe force microscopy.
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Atmospheric Pressure Chemical Vapor Deposition Growth of Millimeter-Scale Single-Crystalline Graphene on the Copper Surface with a Native Oxide Layer
TL;DR: In this paper, the authors show millimeter-scale graphene single crystals synthesized on commercial Cu foils by the atmospheric pressure chemical vapor deposition (CVD) method, which does not involve the routine use of a specially designed CVD reactor or long-term processes.
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A highly reversible zinc deposition for flow batteries regulated by critical concentration induced nucleation
Shengnan Wang,Shengnan Wang,Ziyuan Wang,Ziyuan Wang,Yanbin Yin,Tianyu Li,Nana Chang,Nana Chang,Fengtao Fan,Huamin Zhang,Xianfeng Li +10 more
TL;DR: In this article, the morphological evolution and mechanism of deposited Zn in zinc-based flow batteries (ZFBs) were investigated and it was shown that the formation of dense blocky Zn is controlled by instantaneous nucleation in concentrated electrolyte (≥0.4 M); in dilute electrolyte, Zn becomes mossy because of progressive nucleation.
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Nanoscale charge distribution and energy band modification in defect-patterned graphene
TL;DR: It was determined that the delocalization of electrons/holes in a graphene "island" is confined by the surrounding defective C-O matrix, which acts as an energy barrier for mobile charge carriers.