Tianmu Lake Institute of Advanced Energy Storage Technologies Co., Ltd.2019                                                               Powwed by:www.300.cn Changzhou  苏ICP备14056531号-1号


Research Results

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[1]Meijuan Zhou, Yingchun Lyu*, Yang Liu*, Bingkun Guo*, Porous scaffold of TiO2 for dendrite-free lithium metal anode, Journal of alloys and compounds, 2019, 791, 364-370.
[2]Ziwen Qiu, Chang Liu, Jing Xin, Qian Wang, Jiajie Wu, Wenli Wang, Jingjing, Zhou, Yang Liu*, Bingkun Guo*, Siqi Shi, High conductive composite polymer electrolyte via in situ UV-curing for all-solid-state lithium ion batteries, ACS Sustainable Chemistry & Engineering, 2019, 7, 9875-9880
[3]Run Gu, Tao Cheng, Zhongtao Ma, Ruicheng Qian, Yingchun Lyu*, Anmin Nie, Bingkun Guo*, Enhanced cycling stability of high voltage LiCoO2 by surface phosphorylation, Journal of alloys and compounds, 2019, 803, 348-353
[4]Yinping Qian, Zhongmin Ren, Qian Wang, Yanyan Li, Jian Liu, Yang Liu*, Bingkun Guo*, Deyu Wang*, Simplifying the Electrolyte Systems with the Functional Cosolvent, ACS Applied Materials Interfaces, 2019, 11, 27854-27861
[5]Na Su, Yingchun Lyu*, Run Gu, Bingkun Guo*, Al2O3 coated Li1.2Ni0.2Mn0.2Ru0.4O2 as cathode material for Li-ion batteries, Journal of Alloys and Compounds, 2018,741, 398-403.
[6]Na Su, Yingchun Lyu*, Bingkun Guo*, Electrochemical and in-situ X-ray diffraction studies of Na1.2Ni0.2Mn0.2Ru0.4O2 as a cathode material for sodium-ion batteries, Electrochemistry Communications, 2018, 87, 71-75.
[7]Run Gu, Zhongtao Ma, Tao Cheng, Yingchun Lyu*, Anmin Nie, Bingkun Guo*, Improved Electrochemical Performances of LiCoO2 at Elevated Voltage and Temperature with an In Situ Formed Spinel Coating Layer, ACS Applied Materials Interfaces, 2018, 10, 31271−31279.
[8]B. Guo, X. Wang, P. F. Fulvio, M. Chi, S. Mahurin, X. Sun, S. Dai, Soft-Templated Mesoporous Carbon-Carbon Nanotube Composites for High Performance Lithium-ion Batteries, Advanced Materials, 23 (2011), 4661. 
[9]Y. Yue, A. J. Binder, B. Guo*, Z. Zhang, Z. Qiao, C. Tian, S. Dai*, Mesoporous Prussian Blue Analogues: Template-Free Synthesis and Sodium-Ion Battery Applications, Angew. Chem. Int. Ed., 53 (2014), 3134. 
[10] B. Guo*, X. Yu, X. Sun, M. Chi, Z. Qiao, J. Liu, Y.-S. Hu*, X.-Q. Yang, J. B. Goodenough, S. Dai*, A long-life lithium-ion battery with highly porous TiNb2O7 anode for large-scale electrical energy storage, Energy&Environmental Science, 7 (2014), 2220. 
[11] B. Guo, X. Sun, G. Veith, Z. Bi, S. Mahurin, C. Liao, C. Bridges, M. Paranthaman, S. Dai, Nitrogen-Enriched Carbons from Alkali Salts with High Coulombic Efficiency for Energy Storage Applications, Advanced Energy Materials, 3 (2013), 708. 
[12] B. Guo, X. Fang, B. Li, Y. Shi, C. Ouyang, Y.-S. Hu, Z. Wang, G. D. Stucky, L. Chen, Synthesis and Lithium Storage Mechanism of Ultrafine MoO2 Nanorods, Chemistry of Materials, 24 (2012), 457. 引用:142次
[13] B. Guo*, T. Ben, Z. Bi, G. M. Veith, X. Sun*, S. L. Qiu, S. Dai*, Highly dispersed Sulfur in porous aromatic framework as cathode for Lithium-Sulfur batteries, Chemical Communications, 49 (2013), 4905. 
[14] B. Guo, Q. Kong, Y. Zhu, Y. Mao, Z. Wang, M. Wang, L. Chen, Electrochemically Fabricated Polypyrrole-Cobalt-Oxygen Coordination Complex as High-Performance Lithium-Storage Materials, Chemistry-A European Journal, 17 (2011), 14878. 
[15] B. Guo, M. Chi, X. Sun, S. Dai, Mesoporous carbon-Cr2O3 composite as an anode material for lithium ion batteries, Journal of Power Sources, 205 (2012), 495.