Search Results - "Shen, P.W."

Pre-lithiated graphene nanosheets as negative electrode materials for Li-ion capacitors with high power and energy density by Ren, J.J., Su, L.W., Qin, X., Yang, M., Wei, J.P., Zhou, Z., Shen, P.W.

“…A Li-ion capacitor (LIC), typically composed of a pre-lithiated negative electrode and an activated-carbon positive electrode, can provide high energy and…”
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Li4-xNaxTi5O12 with low operation potential as anode for lithium ion batteries by XIAO, C. W, DING, Y, ZHANG, J. T, SU, X. Q, LI, G. R, GAO, X. P, SHEN, P. W

“…In this work, the unique effect of the substitution of lithium ions by sodium ions in Li4Ti5O12 on the structure, crystalline size and electrochemical…”
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Preparation and electrochemical properties of indium- and sulfur-doped LiMnO2 with orthorhombic structure as cathode materials by SU, Z, LU, Z. W, GAO, X. P, SHEN, P. W, LIU, X. J, WANG, J. Q

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Hydrothermal synthesis of Co2SnO4 nanocrystals as anode materials for Li-ion batteries by WANG, G, GAO, X. P, SHEN, P. W

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Hydrothermal synthesis of Co 2SnO 4 nanocrystals as anode materials for Li-ion batteries by Wang, G., Gao, X.P., Shen, P.W.

“…Cubic spinel Co 2SnO 4 nanocrystals are successfully synthesized via a simple hydrothermal reaction in alkaline solution. The effect of alkaline concentration,…”
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Electrochemical lithium storage of titania nanotubes modified with NiO nanoparticles by An, L.P., Gao, X.P., Li, G.R., Yan, T.Y., Zhu, H.Y., Shen, P.W.

“…The nanotubes of mixed TiO 2(B) and anatase phases, obtained by hydrothermal synthesis and subsequent calcination, are modified with NiO nanoparticles. In the…”
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Preparation and electrochemical properties of indium- and sulfur-doped LiMnO 2 with orthorhombic structure as cathode materials by Su, Z., Lu, Z.W., Gao, X.P., Shen, P.W., Liu, X.J., Wang, J.Q.

“…The indium- and sulfur-doped LiMnO 2 samples with orthorhombic structure as cathode materials for Li-ion batteries are synthesized via hydrothermal method. The…”
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Electrochemical hydrogen storage of ball-milled CeMg 12 and PrMg 12 alloys with Ni powders by Wang, Y., Lu, Z.W., Wang, Y.L., Yan, T.Y., Qu, J.Q., Gao, X.P., Shen, P.W.

“…The structure and electrochemical hydrogen storage properties of the ball-milled CeMg 12 and PrMg 12 alloys with Ni powder in the range of 150 and 200 wt.%,…”
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Effects of metal oxides on electrochemical hydrogen storage of nanocrystalline LaMg12-Ni composites by WANG, Y, GAO, X. P, LU, Z. W, HU, W. K, ZHOU, Z, QU, J. Q, SHEN, P. W

“…Nanocrystalline LaMg12-Ni composites were prepared by ball-milling a LaMg12 alloy and Ni powders with additions of small amounts of metal oxides (TiO2, Fe3O4,…”
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Electrochemical hydrogen storage of ball-milled CeMg12 and PrMg12 alloys with Ni powders by WANG, Y, LU, Z. W, WANG, Y. L, YAN, T. Y, QU, J. Q, GAO, X. P, SHEN, P. W

“…The structure and electrochemical hydrogen storage properties of the ball-milled CeMg12 and PrMg12 alloys with Ni powder in the range of 150 and 200 wt.%,…”
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Effects of metal oxides on electrochemical hydrogen storage of nanocrystalline LaMg 12–Ni composites by Wang, Y., Gao, X.P., Lu, Z.W., Hu, W.K., Zhou, Z., Qu, J.Q., Shen, P.W.

“…Nanocrystalline LaMg 12–Ni composites were prepared by ball-milling a LaMg 12 alloy and Ni powders with additions of small amounts of metal oxides (TiO 2, Fe…”
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Electrochemical properties of the ball-milled LaMg 10Ni 2− x Al x alloys with Ni powders ( x = 0, 0.5, 1 and 1.5) by Wang, Y., Lu, Z.W., Gao, X.P., Hu, W.K., Jiang, X.Y., Qu, J.Q., Shen, P.W.

“…The structure and electrochemical hydrogen storage properties of the ball-milled LaMg 10Ni 2 alloys with Ni powder in the range of 50, 100 and 150 wt.%,…”
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Electrochemical properties of the ball-milled LaMg10Ni2-xAlx alloys with Ni powders (x = 0, 0.5, 1 and 1.5) by WANG, Y, LU, Z. W, GAO, X. P, HU, W. K, JIANG, X. Y, QU, J. Q, SHEN, P. W

“…The structure and electrochemical hydrogen storage properties of the ball-milled LaMg10Ni2 alloys with Ni powder in the range of 50, 100 and 150 wt.%,…”
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Synthesis of carbon nanotubes by catalytic decomposition of methane using LaNi5 hydrogen storage alloy as a catalyst by Gao, X.P., Qin, X., Wu, F., Liu, H., Lan, Y., Fan, S.S., Yuan, H.T., Song, D.Y., Shen, P.W.

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Synthesis of carbon nanotubes by catalytic decomposition of methane using LaNi 5 hydrogen storage alloy as a catalyst by Gao, X.P., Qin, X., Wu, F., Liu, H., Lan, Y., Fan, S.S., Yuan, H.T., Song, D.Y., Shen, P.W.

“…Carbon nanotubes were synthesized by catalytic decomposition of methane using a hydrogen storage alloy of LaNi 5 with a CaCu 5 type of hexagonal structure as a…”
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Electrochemical properties of the Zr(V0.4Ni0.6)2.4 hydrogen storage alloy electrode by Gao, X.P., Zhang, W., Yang, H.B., Song, D.Y., Zhang, Y.S., Zhou, Z.X., Shen, P.W.

“…In order to improve the electrocatalytic activity, hydrogen adsorption performance and activation behaviour of the Zr(V0.4Ni0.6)2.4 alloy electrode, the alloy…”
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