S
Shaohua Chen
Researcher at Beijing Institute of Technology
Publications - 246
Citations - 5970
Shaohua Chen is an academic researcher from Beijing Institute of Technology. The author has contributed to research in topics: Catalysis & Contact mechanics. The author has an hindex of 36, co-authored 225 publications receiving 4401 citations. Previous affiliations of Shaohua Chen include Tsinghua University & Max Planck Society.
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Carbon-Based Fibers for Advanced Electrochemical Energy Storage Devices
TL;DR: This review summarizes the fabrication techniques of carbon-based fibers, especially carbon nanofibers, carbon-nanotube- based fibers, and graphene-based fiber, and various strategies for improving their mechanical, electrical, and electrochemical performance.
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Hierarchical MnO 2 nanowire/graphene hybrid fibers with excellent electrochemical performance for flexible solid-state supercapacitors
Wujun Ma,Shaohua Chen,Shengyuan Yang,Wenping Chen,Yanhua Cheng,Yiwei Guo,Shengjie Peng,Seeram Ramakrishna,Meifang Zhu +8 more
TL;DR: In this paper, a hierarchical structured MnO 2 nanowire/graphene hybrid fibers are fabricated through a simple, scalable wet-spinning method, and the hybrid fibers form mesoporous structure with large specific surface area of 139.9m 2 ǫg −1.
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Flexible all-solid-state asymmetric supercapacitor based on transition metal oxide nanorods/reduced graphene oxide hybrid fibers with high energy density
TL;DR: In this article, an asymmetric supercapacitor was constructed by using MnO2 nanorods/reduced graphene oxide (rGO) hybrid fibers as positive electrode and H3PO4/polyvinyl alcohol (PVA) as electrolyte.
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Simultaneous Production and Functionalization of Boron Nitride Nanosheets by Sugar-Assisted Mechanochemical Exfoliation.
Shaohua Chen,Runzhang Xu,Jiaman Liu,Xiaolong Zou,Ling Qiu,Feiyu Kang,Bilu Liu,Hui-Ming Cheng,Hui-Ming Cheng +8 more
TL;DR: This SAMCE production method has proven to be highly efficient, green, low cost, and scalable, and is extended to the exfoliation and functionalization of other two-dimensional (2D) materials including MoS2 , WS2 , and graphite.
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On strain hardening mechanism in gradient nanostructures
TL;DR: In this article, a dislocation density-based continuum plasticity model was proposed to investigate the strain hardening of a gradient interstitial-free steel by developing a dislocated density-and back stress model, in which the interaction of the component layers in the gradient structure was represented by incorporating geometrically necessary dislocations and back stress.