Chuhua Tang
Thermo Fisher Scientific (Previously FEI co. ) - Cited by 5,407 - Electron Microscopy - Energy storage - STEM - in-situ TEM/STEMBiography
Chuhua Tang, Diagnosis & Treatment Center of Oral Diseases of the PLA, The 306th Hospital of the PLA, Beijing, China, Tel: 8613910687917; E-mail: tch306@126.com .
Title
Cited by
Year
Exploration of the active center structure of nitrogen-doped graphene-based catalysts for oxygen reduction reaction
L Lai, JR Potts, D Zhan, L Wang, CK Poh, C Tang, H Gong, Z Shen, J Lin, ...Energy & Environmental Science 5 (7), 7936-7942, 2012201
2012
A High Energy Density Asymmetric Supercapacitor from Nano‐architectured Ni(OH)2/Carbon Nanotube Electrodes
Z Tang, C Tang, H GongAdvanced Functional Materials 22 (6), 1272-1278, 2012201
2012
ZnO nanosheets abundant in oxygen vacancies derived from metal‐organic frameworks for ppb‐level gas sensing
H Yuan, SAAA Aljneibi, J Yuan, Y Wang, H Liu, J Fang, C Tang, X Yan, ...Advanced Materials 31 (11), 1807161, 2019201
2019
Hierarchically porous Ni-Co oxide for high reversibility asymmetric full-cell supercapacitors
C Tang, Z Tang, H GongJournal of The Electrochemical Society 159 (5), A651, 2012201
2012
Lignin-derived interconnected hierarchical porous carbon monolith with large areal/volumetric capacitances for supercapacitor
H Li, D Yuan, C Tang, S Wang, J Sun, Z Li, T Tang, F Wang, H Gong, ...Carbon 100, 151-157, 2016201
2016
Superior Performance Asymmetric Supercapacitors Based on a Directly Grown Commercial Mass 3D Co3O4@Ni(OH)2 Core–Shell Electrode
C Tang, X Yin, H GongACS applied materials & interfaces 5 (21), 10574-10582, 2013201
2013
Metal–organic framework-derived hierarchical MoS2/CoS2 nanotube arrays as pH-universal electrocatalysts for efficient hydrogen evolution
B Tang, ZG Yu, Y Zhang, C Tang, HL Seng, ZW Seh, YW Zhang, ...Journal of Materials Chemistry A 7 (21), 13339-13346, 2019201
2019
The sol-gel-derived nickel-cobalt oxides with high supercapacitor performances
G Hu, C Tang, C Li, H Li, Y Wang, H GongJournal of the Electrochemical Society 158 (6), A695, 2011201
2011
Study on Phase Formation Mechanism of Non- and Near-Stoichiometric Cu2ZnSn(S,Se)4 Film Prepared by Selenization of Cu–Sn–Zn–S Precursors
X Yin, C Tang, L Sun, Z Shen, H GongChemistry of Materials 26 (6), 2005-2014, 2014201
2014
On‐Chip Tailorability of Capacitive Gas Sensors Integrated with Metal–Organic Framework Films
H Yuan, J Tao, N Li, A Karmakar, C Tang, H Cai, SJ Pennycook, N Singh, ...Angewandte Chemie 131 (40), 14227-14232, 2019201
2019
3D nanostructure of carbon nanotubes decorated Co3O4 nanowire arrays for high performance supercapacitor electrode
Q Ke, C Tang, ZC Yang, M Zheng, L Mao, H Liu, J WangElectrochimica Acta 163, 9-15, 2015201
2015
Hollow spheres of nanocarbon and their manganese dioxide hybrids derived from soft template for supercapacitor application
ZC Yang, CH Tang, H Gong, X Li, J WangJournal of Power Sources 240, 713-0, 2013201
2013
Hierarchical porous Cu 2 ZnSnS 4 films for high-capacity reversible lithium storage applications
X Yin, C Tang, M Chen, S Adams, H Wang, H GongJournal of Materials Chemistry A 1 (27), 7927-7932, 2013201
2013
Intercalating graphene with clusters of Fe3O4 nanocrystals for electrochemical supercapacitors
Q Ke, C Tang, Y Liu, H Liu, J WangMaterials Research Express 1 (2), 025015, 2014201
2014
(CH3NH3)2PdCl4: A Compound with Two‐Dimensional Organic–Inorganic Layered Perovskite Structure
TJ Huang, ZX Thiang, X Yin, C Tang, G Qi, H GongChemistry–A European Journal 22 (6), 2146-21, 2016201
2016
Cobalt monoxide-doped porous graphitic carbon microspheres for supercapacitor application
ZC Yang, CH Tang, Y Zhang, H Gong, X Li, J WangScientific reports 3 (1), 2925, 2013201
2013
In-situ characterization by Near-Ambient Pressure XPS of the catalytically active phase of Pt/Al2O3 during NO and CO oxidation
SL Bergman, J Granestrand, Y Tang, RS París, M Nilsson, FF Tao, C Tang, ...Applied Catalysis B: Environmental 220, 506-511, 2018201
2018
Temperature effect on the binder-free nickel copper oxide nanowires with superior supercapacitor performance
L Zhang, C Tang, H GongNanoscale 6 (21), 12981-12989, 2014201
2014
In-situ studies of oxidation/reduction of copper in Cu-CHA SCR catalysts: comparison of fresh and SO2-poisoned catalysts
SL Bergman, S Dahlin, VV Mesilov, Y Xiao, J Englund, S Xi, C Tang, ...Applied Catalysis B: Environmental 269, 118722, 2020202
2020
MOF-Derived Carbon Networks with Atomically Dispersed Fe–Nx Sites for Oxygen Reduction Reaction Catalysis in Acidic Media
Y Qian, Q Liu, E Sarnello, C Tang, M Chng, J Shui, T Li, SJ Pennycook, ...ACS Materials Letters 1 (1), -43, 2019201
2019
Referred From: https://scholar.google.com/citations?hl=en&user=zDwoRGYAAAAJ
Cited by
| Citations | 5407 |
| h-index | 25 |
| i10-index | 32 |
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