G
Guangcun Shan
Researcher at Beihang University
Publications - 78
Citations - 1671
Guangcun Shan is an academic researcher from Beihang University. The author has contributed to research in topics: Graphene & Amorphous metal. The author has an hindex of 14, co-authored 68 publications receiving 1124 citations. Previous affiliations of Guangcun Shan include Nanjing University of Posts and Telecommunications & City University of Hong Kong.
Papers
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Flexible transparent PES/silver nanowires/PET sandwich-structured film for high-efficiency electromagnetic interference shielding.
TL;DR: A kind of high-yield synthesis strategy for silver nanowires by a two-step injection polyol method that displayed excellent electromagnetic interference (EMI) shielding effectiveness and excellent stability and a good combination of conductivity and light transmission.
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Prediction of near-room-temperature quantum anomalous Hall effect on honeycomb materials.
TL;DR: In this article, the authors proposed a quantum anomalous Hall platform with a large energy gap of 0.34 and 0.06 eV on honeycomb lattices comprised of Sn and Ge.
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New Family of Quantum Spin Hall Insulators in Two-dimensional Transition-Metal Halide with Large Nontrivial Band Gaps.
Liujiang Zhou,Liangzhi Kou,Yan Sun,Claudia Felser,Feiming Hu,Guangcun Shan,Sean C. Smith,Binghai Yan,Thomas Frauenheim +8 more
TL;DR: The realization of pure layered MX monolayers may be prepared by exfoliation from their 3D bulk phases, thus holding great promise for nanoscale device applications and stimulating further efforts on transition metal-based QSH materials.
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Fabrication of FeF3 nanocrystals dispersed into a porous carbon matrix as a high performance cathode material for lithium ion batteries
Ruguang Ma,Ruguang Ma,Man Wang,Pengpeng Tao,Yu Wang,Chenwei Cao,Guangcun Shan,Shiliu Yang,Liujiang Xi,Jonathan C. Y. Chung,Zhouguang Lu +10 more
TL;DR: In this article, the phase evolution of the reaction between the precursor and HF solution vapour under air and argon gas atmospheres was investigated, and the results showed that the air in the autoclave played an important role in driving the reaction to form FeF3.