Follow
Xinghui Wang (王星辉)
Title
Cited by
Cited by
Year
Nanostructured NiO electrode for high rate Li-ion batteries
X Wang, X Li, X Sun, F Li, Q Liu, Q Wang, D He
Journal of Materials Chemistry 21 (11), 3571-3573, 2011
3922011
Highly stable and reversible lithium storage in SnO2 nanowires surface coated with a uniform hollow shell by atomic layer deposition
C Guan, X Wang, Q Zhang, Z Fan, H Zhang, HJ Fan
Nano letters 14 (8), 4852-4858, 2014
2862014
Mesoporous NiO nanosheet networks as high performance anodes for Li ion batteries
X Wang, L Qiao, X Sun, X Li, D Hu, Q Zhang, D He
Journal of Materials Chemistry A 1 (13), 4173-4176, 2013
2512013
A multilayer Si/CNT coaxial nanofiber LIB anode with a high areal capacity
Q Xiao, Y Fan, X Wang, RA Susantyoko, Q Zhang
Energy & Environmental Science 7 (2), 655-661, 2014
2122014
NiO nanocone array electrode with high capacity and rate capability for Li-ion batteries
X Wang, Z Yang, X Sun, X Li, D Wang, P Wang, D He
Journal of Materials Chemistry 21 (27), 9988-9990, 2011
2112011
Interconnected porous MnO nanoflakes for high-performance lithium ion battery anodes
X Li, D Li, L Qiao, X Wang, X Sun, P Wang, D He
Journal of Materials Chemistry 22 (18), 9189-9194, 2012
1892012
Roles of carbon nanotubes in novel energy storage devices
L Sun, X Wang, Y Wang, Q Zhang
carbon 122, 462-474, 2017
1792017
High performance lithium ion battery anodes based on carbon nanotube–silicon core–shell nanowires with controlled morphology
Y Fan, Q Zhang, Q Xiao, X Wang, K Huang
Carbon 59, 264-269, 2013
1722013
Single electrospun porous NiO–ZnO hybrid nanofibers as anode materials for advanced lithium-ion batteries
L Qiao, X Wang, X Sun, X Li, Y Zheng, D He
Nanoscale 5 (7), 3037-3042, 2013
1662013
Three-dimensional network structured α-Fe 2 O 3 made from a stainless steel plate as a high-performance electrode for lithium ion batteries
X Li, L Qiao, D Li, X Wang, W Xie, D He
Journal of Materials Chemistry A 1 (21), 6400-6406, 2013
1572013
Paper-based all-solid-state flexible micro-supercapacitors with ultra-high rate and rapid frequency response capabilities
W Liu, C Lu, H Li, RY Tay, L Sun, X Wang, WL Chow, X Wang, BK Tay, ...
Journal of Materials Chemistry A 4, 3754-3764, 2016
1432016
MOF-Derived Bifunctional Co0.85Se Nanoparticles Embedded in N-Doped Carbon Nanosheet Arrays as Efficient Sulfur Hosts for Lithium–Sulfur Batteries
Y Xie, J Cao, X Wang, W Li, L Deng, S Ma, H Zhang, C Guan, W Huang
Nano Letters 21 (20), 8579-8586, 2021
1362021
Low Temperature H2S Detection with Hierarchical Cr-doped WO3 Microspheres
Y Wang, B Liu, S Xiao, X Wang, L Sun, H Li, W Xie, Q Li, Q Zhang, ...
ACS Applied Materials & Interfaces, 2016
1362016
Ultrahigh volumetric capacity lithium ion battery anodes with CNT–Si film
X Wang, L Sun, RA Susantyoko, Y Fan, Q Zhang
Nano Energy 8, 71-77, 2014
1342014
High areal capacity Li ion battery anode based on thick mesoporous Co 3 O 4 nanosheet networks
X Wang, Y Fan, RA Susantyoko, Q Xiao, L Sun, D He, Q Zhang
Nano Energy 5, 91-96, 2014
1182014
Designed synthesis of wide range microwave absorption Fe 3 O 4–carbon sphere composite
S Ni, X Wang, G Zhou, F Yang, J Wang, D He
Journal of Alloys and Compounds 489 (1), 252-256, 2010
1112010
Low temperature synthesis of Fe 3 O 4 micro-spheres and its microwave absorption properties
S Ni, X Sun, X Wang, G Zhou, F Yang, J Wang, D He
Materials Chemistry and Physics 124 (1), 353-358, 2010
1092010
Hydrothermal synthesis of Fe 3 O 4 nanoparticles and its application in lithium ion battery
S Ni, X Wang, G Zhou, F Yang, J Wang, Q Wang, D He
Materials Letters 63 (30), 2701-2703, 2009
1072009
One-step construction of three-dimensional nickel sulfide-embedded carbon matrix for sodium-ion batteries and hybrid capacitors
S Li, W He, B Liu, J Cui, X Wang, DL Peng, B Liu, B Qu
Energy Storage Materials 25, 636-643, 2020
1032020
A new carbonaceous material derived from biomass source peels as an improved anode for lithium ion batteries
X Sun, X Wang, N Feng, L Qiao, X Li, D He
Journal of Analytical and Applied Pyrolysis 100, 181-185, 2013
982013
The system can't perform the operation now. Try again later.
Articles 1–20