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Dongrui Wang
Researcher at University of Science and Technology Beijing
Publications - 95
Citations - 4799
Dongrui Wang is an academic researcher from University of Science and Technology Beijing. The author has contributed to research in topics: Dielectric & Permittivity. The author has an hindex of 31, co-authored 80 publications receiving 3788 citations. Previous affiliations of Dongrui Wang include Hong Kong Polytechnic University & Tsinghua University.
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Journal ArticleDOI
Scalable 2D Hierarchical Porous Carbon Nanosheets for Flexible Supercapacitors with Ultrahigh Energy Density.
Lei Yao,Lei Yao,Qin Wu,Peixin Zhang,Junmin Zhang,Dongrui Wang,Yongliang Li,Xiangzhong Ren,Hongwei Mi,Libo Deng,Zijian Zheng +10 more
TL;DR: The first synthesis of 2D hierarchical porous carbon nanosheets (2D-HPCs) with rich nitrogen dopants is reported, which is prepared with high scalability through a rapid polymerization of a nitrogen-containing thermoset and a subsequent one-step pyrolysis and activation into 2D porous nanOSheets.
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Waterproof, Ultrahigh Areal-Capacitance, Wearable Supercapacitor Fabrics.
TL;DR: Low-cost materials are used including multiwall carbon nanotube, reduced graphene oxide, and metallic textiles to fabricate composite fabric electrodes, in which MWCNT and RGO are alternatively vacuum-filtrated directly onto Ni-coated cotton fabrics to achieve ultrahigh areal capacitance.
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Textile-Based Electrochemical Energy Storage Devices
TL;DR: In this article, a specific perspective on the development of textile-based electrochemical energy storage devices (TEESDs), in which textile components and technologies are utilized to enhance the energy storage ability and mechanical properties of wearable electronic devices, is provided.
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Improved dielectric properties of nanocomposites based on poly(vinylidene fluoride) and poly(vinyl alcohol)-functionalized graphene.
TL;DR: Higher dielectric constant and lower loss factor were simultaneously achieved in rGO-PVA/PVDF nanocomposites at a frequency range lower than 1 × 10³ Hz, which provides a potential design strategy based on graphene interface engineering, which would lead to higher-performance flexible dielectrics materials.
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Chemical formation of soft metal electrodes for flexible and wearable electronics
TL;DR: This review article provides a detailed overview on how to chemically fabricate SMEs, including the material preparation, fabrication technologies, methods to characterize their key properties, and representative studies on different wearable applications.