Search Results - "Cao, G. S"

Coaxial MnO/C nanotubes as anodes for lithium-ion batteries by Ding, Y.L., Wu, C.Y., Yu, H.M., Xie, J., Cao, G.S., Zhu, T.J., Zhao, X.B., Zeng, Y.W.

“…[Display omitted] ► Coaxial MnO/C nanotube with an average diameter of about 450 nm, a wall thickness of about 150 nm, a length of 1-5 μm and a 10 nm thick…”
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Enhanced Elevated-Temperature Performance of Al-Doped Single-Crystalline LiMn2O4 Nanotubes as Cathodes for Lithium Ion Batteries by Ding, Y. L, Xie, J, Cao, G. S, Zhu, T. J, Yu, H. M, Zhao, X. B

“…Al-doped LiMn2O4 nanotubes have been synthesized using β-MnO2 nanotubes as self-templates. Singe-crystalline structure of the Al-doped spinel was verified by…”
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Predictor of massive bleeding following stent placement for malignant oesophageal stricture/fistulae: a multicentre study by Liu, S.-Y, Xiao, P, Li, T.-x, Cao, H.-C, Mao, A.-W, Jiang, H.-s, Cao, G.-s, Liu, J, Wang, Y.-d, Zhang, X.-S

“…Aim To evaluate retrospectively the incidence and predictors of massive bleeding after stent placement for malignant oesophageal stricture/fistulae. Materials…”
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Enhanced low voltage cycling stability of LiMn2O4 cathode by ZnO coating for lithium ion batteries by TU, J, ZHAO, X. B, XIE, J, CAO, G. S, ZHUANG, D. G, ZHU, T. J, TU, J. P

“…Aluminium doped spinel, LiAl0.04Mn1.96O4, was modified by melting impregnation using Zn(NO3)2. High-resolution transmission electron microscopy observations…”
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Determination of Li-ion diffusion coefficient in amorphous Zn and ZnO thin films prepared by radio frequency magnetron sputtering by Xie, J., Imanishi, N., Hirano, A., Takeda, Y., Yamamoto, O., Zhao, X.B., Cao, G.S.

“…Amorphous Zn and ZnO thin films have been prepared by radio frequency magnetron sputtering on Cu substrates and have been characterized by X-ray diffraction,…”
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Analysis and design for a class of complex control systems Part I: Fuzzy modelling and identification by Cao, S.G., Rees, N.W., Feng, G.

“…This paper is the first of two dealing with the analysis and design of a class of complex control systems. This part deals with fuzzy modelling and…”
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Analysis and design for a class of complex control systems part II: Fuzzy controller design by Cao, S.G., Rees, N.W., Feng, G.

“…In this second paper on the analysis and design of complex control systems, we present a controller design method for a class of complex control systems. This…”
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Electrochemical performance of LiFe1-xVxPO4/carbon composites prepared by solid-state reaction by CHEN, X. J, CAO, G. S, ZHAO, X. B, TU, J. P, ZHU, T. J

“…LiFe1-xVxPO4/C cathode materials (x = ,0.,0,0.,0.4) were synthesized by solid-state reaction using polypropylene as the reducing agent and carbon precursor…”
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Enhanced cycling stability of LiMn2O4 by surface modification with melting impregnation method by TU, J, ZHAO, X. B, CAO, G. S, ZHUANG, D. G, ZHU, T. J, TU, J. P

“…The surface of as-prepared LiMn2O4 was modified with Al2O3 by a melting impregnation method. X-ray diffraction, field emission scanning electron microscopy…”
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One-step synthesis LiMn2O4 cathode by a hydrothermal method by WU, H. M, TU, J. P, YUAN, Y. F, CHEN, X. T, XIANG, J. Y, ZHAO, X. B, CAO, G. S

“…Spinel LiMn2O4 powders have been successfully synthesized by a hydrothermal method directly, which is no any pretreatment and following treatment in the…”
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Electrochemical performance of nanostructured amorphous Co3Sn2 intermetallic compound prepared by a solvothermal route by XIE, J, ZHAO, X. B, CAO, G. S, TU, J. P

“…A nanostructured amorphous Co3Sn2 intermetallic compound was prepared by a solvothermal route. The microstructure and the electrochemical performance were…”
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Solvothermal synthesis and electrical transport properties of skutterudite CoSb3 by MI, J. L, ZHAO, X. B, ZHU, T. J, TU, J. P, CAO, G. S

“…Nanosized binary skutterudite CoSb3 powders were prepared by solvothermal method using CoCb and SbCl3 as precursors and NaBH4 as reductant. Different reaction…”
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Solvothermal synthesis and electrochemical performances of nanosized CoSb3 as anode materials for Li-ion batteries by XIE, J, ZHAO, X. B, CAO, G. S, ZHAO, M. J, SU, S. F

“…In the present study, the CoSb3 powder was prepared by solvothermal route for the first time and the particle size of the as-prepared powder is in nanoscale…”
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Low temperature solvothermal synthesis of nanosized NiSb as a Li-ion battery anode material by Xie, J., Zhao, X.B., Yu, H.M., Qi, H., Cao, G.S., Tu, J.P.

“…Nanosized intermetallic compound NiSb was successfully synthesized by a solvothermal route and studied as a promising anode material for secondary lithium-ion…”
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Electrochemical performance of CoSb3/MWNTS nanocomposite prepared by in situ solvothermal synthesis by XIE, J, ZHAO, X. B, CAO, G. S, ZHAO, M. J

“…In situ solvothermally synthesized composite (SSC) and mechanically blended composite (MBC) of nanosized CoSb3 and multiwalled carbon nanotubes (MWNTs) were…”
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Solvothermal synthesis of nanosized CoSb2 alloy anode for Li-ion batteries by XIE, J, ZHAO, X. B, CAO, G. S, ZHONG, Y. D, ZHAO, M. J, TU, J. P

“…The nanocrystalline CoSb2 was prepared by a solvothermal method at various temperatures and was investigated as a potential anode material for lithium-ion…”
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Synthesis of Li1+xV3O8 by citrate sol-gel route at low temperature by WU, Z. J, ZHAO, X. B, TU, J, CAO, G. S, TU, J. P, ZHU, T. J

“…Li1+xV3O8 was synthesized by a citrate sol-gel route using lithium acetate and ammonium metavanadate as the starting reagents. This process avoided the…”
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Hydrothermal synthesis and microstructure investigation of nanostructured bismuth telluride powder by ZHAO, X. B, JI, X. H, ZHANG, Y. H, CAO, G. S, TU, J. P

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Electrochemical Li-uptake properties of nanosized NiSb2 prepared by solvothermal route by XIE, J, ZHAO, X. B, CAO, G. S, ZHAO, M. J, SU, S. F

“…Commercial lithium batteries use graphite as anode materials. Considering the high theoretical capacity of metallic Sb, in recent years some Sb-based…”
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Studies of cycleability of LiMn2O4 and LiLa0.01Mn1.99O4 as cathode materials for Li-ion battery by TU, J, ZHAO, X. B, ZHUANG, D. G, CAO, G. S, ZHU, T. J, TU, J. P

“…LiMn2O4 spinel and LiLa0.01Mn1.99O4 were synthesized and the structure and morphology were characterized by X-ray diffraction (XRD) and field emission scanning…”
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