1 |
State-of-Charge Estimation for Battery Management System Using Optimized Support Vector Machine for Regression
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期刊论文 |
X. P. Li|C. L. Jiang|X. H. Qiu|W. S. Li| |
2 |
Route to hemocompatible polyethersulfone membranes via surface aminolysis and heparinization
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期刊论文 |
Yihang Jing|Baoku Zhu|Liping Zhu|Youyi Xu| |
3 |
Anti-thermal shrinkage nanoparticles/polymer and ionic liquid based gel polymer electrolyte for lithium ion battery
|
期刊论文 |
Y.H.Liao, C.J.Sun, S.J.Hu, W.S.Li| |
4 |
Lithium-sulfur cell with combining carbon nanofibersesulfur cathode and gel polymer electrolyte
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期刊论文 |
M.M.Rao, X.Y.Geng, X.P.Li, S.J.Hu, W.S.Li| |
5 |
Reinvestigation of the electrochemical lithium intercalation in 2H- and 3R-NbS2
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期刊论文 |
K. S. Park|P. Singh|W. S. Li|J. B. Goodenough| |
6 |
Facile synthesis of lithium-rich layered oxide Li[Li0.2Ni0.2Mn0.6]O2 as cathode of lithium-ion batteries with improved cyclic performance
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期刊论文 |
X.D. Xiang|W. S. Li| |
7 |
Improved thermal and electrochemical performances of PMMA modified PE separator skeleton prepared via dopamine-initiated ATRP for lithium ion batteries
|
期刊论文 |
H. Li|H. Zhang|B. K. Zhu|L. P. Zhu| |
8 |
Reaction Mechanism of 1,4-Dimethoxy Benzene as an Overcharge Protection Additive
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期刊论文 |
Peng Bin|Xu Meng-Qing|Gu Feng-Long|Hu She-Jun| |
9 |
Morphology-controllable synthesis of LiMn2O4 particles as cathode materials of lithium batteries
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期刊论文 |
X. D. Xiang|Z. Fu|W. S. Li| |
10 |
Enhanced performance of modified HDPE separators generated from surface enrichment of polyether chains for lithium ion secondary battery
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期刊论文 |
Hao Li|Zhi-Ying Liang|Bao-Ku Zhu|Li-Ping Zhu| |
11 |
A Novel Manganese-Based Lithium-Intercalated Cathode Material with High Cyclic Stability for Lithium-Ion Batteries
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期刊论文 |
X. D. Xiang|L. D. Xing|W. S. Li| |
12 |
Tris (trimethylsilyl) borate (TMSB) as a cathode surface film forming additive for 5 V Li/LiNi0.5Mn1.5O4 Li-ion cells
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期刊论文 |
X. L. Liao|W. Z. Huang|L. D. Xing|李伟善| |
13 |
Porous LiMn2O4 cubes architectured with singlecrystalline nanoparticles and exhibiting excellent cyclic stability and rate capability as the cathode of a lithium ion battery
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期刊论文 |
L.D. Xing|M. Q. Xu|X.P. Li*|W. S. Li| |
14 |
A novel polymer composite as cathode binder of lithium ion batteries with improved rate capability and cyclic stability
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期刊论文 |
T. T. Chen|Q. P. Hu|A. B. Feng|W. S. Li| |
15 |
Poly(methyl methacrylate-acrylonitrile-ethyl acrylate) terpolymer based gel electrolyte for LiNi0.5Mn1.5O4 cathode of high voltage lithium ion battery
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期刊论文 |
H.L. Xie|T. T. Chen|M. M. Rao|W. S. Li| |
16 |
丙酸乙酯对LiFePO_4锂离子电池低温性能的影响
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期刊论文 |
郝连升|李伟善|许梦清|邢丽丹| |
17 |
Tertiary amine block copolymer containing ultrafiltration membrane with pH-dependent macromolecule sieving and Cr(VI) removal properties
|
期刊论文 |
Ke Zheng|Baoku Zhu|Hong Xu|Liping Zhu| |
18 |
A novel electrolyte additive for improving the interfacial stability of high voltage lithium nickel manganese oxide cathode
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期刊论文 |
L. D. Xing|R.Q. Zhang|X.S. Wang|W. S. Li| |
19 |
Carbon coating of Li4Ti5O12-TiO2 anode by using cetyl trimethyl ammonium bromide as dispersant and phenolic resin as carbon precursor
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期刊论文 |
Y. H. Liao|W. S. Li|X.W. Tang|X.F. Li| |
20 |
Influences of extractant on the hydrophilicity and performances of HDPE/PE-b-PEG blend membranes prepared via thermally induced phase separation (TIPS) process
|
期刊论文 |
Fang L.F.|Zhang H.|Liang Z.Y.|Zhu B.K.| |
21 |
Polyethylene-supported polyvinylidene fluoride- cellulose acetate butyrate blended polymer electrolyte for lithium ion battery
|
期刊论文 |
W.S. Li|X. X. Zuo|S. Q. Liu|Z. Li| |
22 |
Influence of solvent type on porosity structure and properties of polymer separator for the Li-ion batteries
|
期刊论文 |
J. C. Luo|Q. P. Hu|A. B. Feng|W. S. Li| |
23 |
Oxidative stability and reaction mechanism of lithium bis(oxalate)borate as cathode film-forming additive for lithium ion battery
|
期刊论文 |
Y. T. Wang, L. D. Xing*, X. W. Tang, X. F. Li, W.| |
24 |
Reaction mechanism of 1, 4-dimethoxy benzene as an overcharge protection additive for lithium ion battery
|
期刊论文 |
T.T. Li, C.Y. Wang, L.D. Xing, W. S. Li*, B. Peng,| |
25 |
Quantum chemistry study of the oxidationinduced stability and decomposition of propylene carbonate-containing complexes
|
期刊论文 |
W.N. Huang|M. Q. Xu|X. P. Li|W. S. Li| |
26 |
Effects of the extractant on the hydrophilicity and performance of high-density polyethylene/polyethylene-b-poly(ethylene glycol) blend membranes prepared via a thermally induced phase separation process
|
期刊论文 |
Shi J.L.|Fang L.F.|Zhang H.|Liang Z.Y.| |
27 |
Chapter5: Interphases between electrolytes and Anodes in Li-ion Battery, in ModernAspects of Electrochemistry 58: Electrolytes for Lithium and Lithium-ionBatteries
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专著 |
|
28 |
Polyethylene-supported polyvinylidene ?uoride-cellulose acetate butyrate blended polymer electrolyte for lithium ion battery
|
期刊论文 |
23. J. S. Liu, W. S. Li*, X. X. Zuo, S. Q. Liu, Z| |
29 |
Mesoporous carbon-sulfur composite as cathode for lithium-sulfur battery
|
期刊论文 |
Y. H. Liao|M.M. Rao|X.P. Li|W. S. Li| |
30 |
Lithium-sulfur cell with combining carbon nanofibers-sulfur cathode and gel polymer electrolyte
|
期刊论文 |
X. Y. Geng|X. P. Li|S. J. Hu|W.S. Li| |
31 |
Dimethoxydiphenylsilane (DDS) as overcharge protection additive for lithium-ion batteries
|
期刊论文 |
Li Bin|Xing Lidan|Wang Yong|Li Weishan| |
32 |
Dimethoxydiphenylsilane (DDS) as an Electrolyte Additive for High Voltage Li-ion Batteries
|
期刊论文 |
S. W. Mai, M. Q. Xu*, L. D. Xing, W. S. Li*| |
33 |
Tris(trimethylsilyl) borate (TMSB) as a cathodesurface film forming additive for 5 V Li/LiNi0.5Mn1.5O4 Li-ion cells
|
期刊论文 |
X. L. Liao|W. Z. Huang|L. D. Xing|W. S. Li| |
34 |
Sodium intercalation behavior of layered NaxNbS2 (0≤x≤1)
|
期刊论文 |
P.H. Xiao|G. Henkelman|J.B.Goodenough|W. S. Li| |
35 |
Crystallographic facet- and size-controllable synthesis of spinel LiNi0.5Mn1.5O4 with excellent rate capability and cyclic stability as cathode of high voltage lithium ion battery
|
期刊论文 |
H. B. Lin, Y. M. Zhang, H. B. Rong, S. W. Mai, J.| |
36 |
How does Lithium Salt Anion Affect Oxidation Decomposition Reaction of Ethylene Carbonate: a Density Functional Theory Study
|
期刊论文 |
T. T. Li, L. D. Xing, W. S. Li*, Y. T. Wang, M. Q| |
37 |
Significant influence of insufficient lithium on electrochemical performance of lithium-rich layered oxide cathodes for lithium ion batteries
|
期刊论文 |
Xiang, Xingde|Li, Weishan| |
38 |
锂离子电池用聚烯烃隔膜的改性
|
期刊论文 |
石俊黎|李浩|方立峰|朱宝库| |
39 |
锂电池单质硫/碳复合正极材料的研究进展
|
期刊论文 |
耿秀玉|孙娉|李小平|李伟善| |
40 |
Improving cyclic stability of lithium nickel manganese oxide cathode for high voltage lithium ion battery by modifying electrode/electrolyte interface with electrolyte additive
|
期刊论文 |
Z. S. Wang|M. Q. Xu|L. D. Xing|W. S. Li| |
41 |
4-(Trifluoromethyl)-Benzonitrile: A Novel Electrolyte Additive for Lithium Nickel Manganese Oxide Cathode of High Voltage Lithium Ion Battery
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期刊论文 |
L. D. Xing|Y. T. Wang|M. Q. Xu|W. S. Li| |
42 |
LiNi0.5Mn1.5O4 nanoparticles: Synthesis with synergistic effect of polyvinylpyrrolidone and ethylene glycol and performance as cathode of lithium ion battery
|
期刊论文 |
Xing, L. D.|Xu, M. Q.|Li, X. P.|Li, W. S.| |
43 |
Investigation on polyethylene-supported and nano-SiO2 doped poly(methyl methacrylate-co-butyl acrylate) based gel polymer electrolyte for high voltage lithium ion battery
|
期刊论文 |
P. Sun|T. T. Chen|M. M. Rao|W. S. Li| |
44 |
4-(Trifluoromethyl)-Benzonitrile: A Novel Electrolyte Additive for Lithium Nickel Manganese Oxide Cathode of High Voltage Lithium Ion Battery
|
期刊论文 |
W. N. Huang, L. D. Xing*, Y. T. Wang, M. Q. Xu, W| |
45 |
锂离子电池凝胶聚合物隔膜及功能电解质的设计与制备技术
|
奖励 |
|
46 |
动力锂离子电池用功能电解质的产业化
|
奖励 |
|
47 |
Arrayed titanium dioxide shells architecture as anode of lithium ion microbattery
|
期刊论文 |
J. F. Lei|W. S. Li|X. P. Li|L. Z. Zeng| |
48 |
Effect of particle size on rate capability and cyclic stability of LiNi0.5Mn1.5O4 cathode for high-voltage lithium ion battery
|
期刊论文 |
Y. H. Liao|L. D. Xing|M. Q. Xu|W. S. Li| |
49 |
Self-directed chemical synthesis of lithium-rich layered oxide Li[Li0.2Ni0.2Mn0.6]O2 with tightly interconnected particles as cathode of lithium ion batteries with improved rate capability
|
期刊论文 |
X.D. Xiang|W. S. Li| |
50 |
Tris(trimethylsilyl)borate as an electrolyte additive for improving interfacial stability of high voltage layered lithium-rich oxidecathode/carbonate-based electrolyte
|
期刊论文 |
M. Chen|Z. S. Wang|M. Q. Xu|W. S. Li| |
51 |
Composition and properties of porous blend membranes containing tertiary amine based amphiphilic copolymers with different sequence structures
|
期刊论文 |
Yue Cui|Ke Zheng|Baoku Zhu|Liping Zhu| |
52 |
Methylene Methanedisulfonate (MMDS) as a Novel SEI Forming Additive on Anode for Lithium Ion Batteries
|
期刊论文 |
Y. T. Wang|X. L. Liao|H. B. Lin|W. S. Li| |
53 |
Crystallographic facet- and size-controllable synthesis of spinel LiNi0.5Mn1.5O4 with excellent rate capability and cyclic stability as cathode of high voltage lithium ion battery
|
期刊论文 |
H. B. Lin, Y. M. Zhang, H. B. Rong, S. W. Mai, J.| |
54 |
Improved thermal and electrochemical performances of PMMA modified PE separator skeleton prepared via dopamine-initiated ATRP for lithium ion batteries
|
期刊论文 |
Li H.|Zhang H.|Zhu B.K.|Zhu L.P.| |
55 |
Improving the wettability and thermal resistance of polypropylene separators with a thin inorganic-organic hybrid layer stabilized by polydopamine for lithium ion batteries
|
期刊论文 |
J. H. Jiang|H. Li|B. K. Zhu|L. P. Zhu| |
56 |
How does lithium salt anion affect oxidation decomposition reaction of ethylene carbonate: A density functional theory study
|
期刊论文 |
Yating Wang|Mengqing Xu|Fenglong Gu|Shejun Hu| |
57 |
Electrolytes and Anode Interfacial Chemistry,in Electrolytes for Lithium and Lithium-ion Batteries
|
专著 |
|
58 |
Synthesis of dandelion-like TiO2 microspheres as anode materials for lithium ion batteries with enhanced rate capacity and cyclic performances
|
期刊论文 |
Y. Wang|X. P. Li|S. J. Hu|W. S. Li| |
59 |
State-of-Charge Estimation for Battery Management System Using Optimized Support Vector Machine for Regression
|
期刊论文 |
J. N. Hu, J. J. Hu, X. P. Li*, C. L. Jiang, X. H.| |
60 |
Why do sulfone-based electrolytes show stability at high voltages? Insight from density functional theory
|
期刊论文 |
Wang Y.T.|Xing L.D.|Li W.S.|Bedrov D.| |
61 |
Oxidative stability and reaction mechanism of lithium bis(oxalate)borate as cathode film-forming additive for lithium ion battery
|
期刊论文 |
Y. T. Wang, L. D. Xing*, X. W. Tang, X. F. Li, W.| |
62 |
Triple-shelled Mn2O3 hollow nanocubes: forceinduced synthesis and excellent performance as the anode in lithium-ion batteries
|
期刊论文 |
Y.H. Liao|L.D. Xing|M. Q. Xu|W. S. Li| |
63 |
Polycarbonyl(quinonyl) organic compounds as cathode materials for sustainable lithium ion batteries: lithium storage mechanism
|
期刊论文 |
R. H. Zeng, L. D. Xing, Y. C. Qiu, Y. T. Wang, W.| |
64 |
Tris (pentafluorophenyl) phosphine: An electrolyte additive for high voltage Li-ion batteries. Electrochem. Commun
|
期刊论文 |
M.Q.Xu, Y.L.Liu, B.Li, W.S.Li, X.P.Li, S.J.Hu| |
65 |
Dimethoxydiphenylsilane (DDS) as an Electrolyte Additive for High Voltage Li-ion Batteries
|
期刊论文 |
S. W. Mai, M. Q. Xu*, L. D. Xing, W. S. Li*| |
66 |
Polyethylene glycol-assisted synthesis of hierarchically porous layered lithium-rich oxide as cathode of lithium ion battery
|
期刊论文 |
D.R. Chen|Y. H. Liao|Q.M. Huang|W. S. Li| |
67 |
Synthesis of dandelion-like TiO2 microspheres as anode materials for lithium ion batteries with enhanced rate capacity and cyclic performances
|
期刊论文 |
J.Yi, Y.L.Liu, Y.Wang, X.P.Li, S.J.Hu, W.S.Li| |
68 |
Oxidative stability and reaction mechanism of lithium bis(oxalate)borate as a cathode film-forming additive for lithium ion batteries
|
期刊论文 |
W.N. Huang|H.B. Zhou|X.P. Li|W. S. Li| |
69 |
Polyethylene-supported polyvinylidene fluoride -cellulose acetate butyrate blended polymer electrolyte for lithium ion battery
|
期刊论文 |
J.S.Liu, W.S.Li, X.X.Zuo, S.Q.Liu, Z.Li| |
70 |
Crystallographic facet- and size-controllable synthesis of spinel LiNi0.5Mn1.5O4 with excellent cyclic stability as cathode of high voltage lithium ion battery
|
期刊论文 |
L.D. Xing|M. Q. Xu|X.P. Li*|W. S. Li| |
71 |
How does Lithium Salt Anion Affect Oxidation Decomposition Reaction of Ethylene Carbonate: a Density Functional Theory Study
|
期刊论文 |
T.T.Li, L.D.Xing, W.S.Li, Y.T.Ting, M.Q.Xu, F.L.G| |
72 |
Highly dispersed sulfur in multi-walled carbon nanotubes for lithium/sulfur battery
|
期刊论文 |
X.Y.Geng, M.M.Rao, X.P.Li, W.S.Li| |
73 |
Fe2O3 nanorods/carbon nanofibers composite: Preparation and performance as anode of high rate lithium ion battery
|
期刊论文 |
Wang Yaqiong|Wang Yating|Xu Mengqing|Xing Lidan| |
74 |
湿法制备锂离子电池隔膜的高性能化改性研究
|
期刊论文 |
李浩|石俊黎|张宏|梁治樱| |
75 |
Dimethoxydiphenylsilane (DDS) as overcharge protection additive for lithium-ion batteries
|
期刊论文 |
Li, Bin|Xing, Lidan|Wang, Yong|Li, Weishan| |
76 |
高压锂离子电池电解液的研究进展
|
期刊论文 |
邢丽丹|许梦清|李伟善| |
77 |
High Thermal Resistance Polyimide Separators Prepared via Soluble Precusor and Non-solvent Induced Phase Separation Process for Lithium Ion Batteries
|
期刊论文 |
C. E. Lin|M. Y. Zhou|A. E. John|B. K Zhu| |
78 |
高压锂离子电池电解液的研究进展
|
期刊论文 |
邢丽丹*, 许梦清, 李伟善*| |
79 |
Construction of Porous PVDF Coating Layer and Electrochemical Performances of the Corresponding Modified Polyethylene Separators for Lithium Ion Batteries
|
期刊论文 |
J. L. Shi|H. Li|B. K. Zhu|L. P. Zhu| |
80 |
Facile introduction of polyether chains onto polypropylene separators and its application in lithium ion batteries
|
期刊论文 |
Fang L.F.|Shi J.L.|Zhu B.K.|Zhu L.P.| |
81 |
两亲高分子分离膜及其规模化制备与应用
|
奖励 |
|
82 |
Enhanced cyclability of LiNi0.5Mn1.5O4 cathode in carbonate based electrolyte with incorporation of tris(trimethylsilyl)phosphate (TMSP)
|
期刊论文 |
Rong, Haibo|Xu, Mengqing|Xing, Lidan|Li, Weishan| |
83 |
Preparation and characterization of size-uniform Li[Li0.131Ni0.304Mn0.565]O2 particles as cathode materials for high energy lithium ion battery
|
期刊论文 |
X.D.Xiang, X.P.Li, W.S.Li| |
84 |
Investigation on polyethylene-supported and nano-SiO2 doped poly(methyl methacrylate-co-butyl acrylate) based gel polymer electrolyte for high voltage lithium ion battery
|
期刊论文 |
H. L. Xie, Y. H. Liao*, P. Sun, T. T. Chen, M. M.| |
85 |
Fe2O3 nanorods/carbon nanofibers composite: Preparation and performance as anode of high rate lithium ion battery
|
期刊论文 |
Y. Q. Wang|Y. T. Wang|M. Q. Xu|L. D. Xing| |
86 |
A novel electrolyte with the ability to form a solid electrolyte interface on the anode and cathode of a LiMn2O4/graphite battery
|
期刊论文 |
Liu J. S.|Xing L. D.|Xu M. Q.|Li W. S.| |
87 |
Preparation and Properties of Poly (vinylidene fluoride)/poly(dimethylsiloxane) graft (poly(propylene oxide)-block-poly(ethylene oxide)) blend porous separators and corresponding electrolytes
|
期刊论文 |
Liang Z.Y.|Chen Y.M.|Zhu B.K.|Zhu L.P.| |
88 |
Properties of solid electrolyte interphase formed by prop-1-ene-1,3-sultone on graphite anode of Li-ion batteries
|
期刊论文 |
Liu, Yanlin|Yang, Liang|Li, Weishan|Hu, Shejun| |
89 |
Anti-thermal shrinkage nanoparticles/polymer and ionic liquid based gel polymer electrolyte for lithium ion battery
|
期刊论文 |
Y. H. Liao, C. J. Sun, S. J. Hu, W. S. Li*| |
90 |
Preparation and performance of gel polymer electrolyte based on electrospun polymer membrane and ionic liquid for lithium ion battery
|
期刊论文 |
X.Y.Geng|Y.H.Liao|S.J. Hu|W.S. Li| |
91 |
Self-directed chemical synthesis of lithium-rich layered oxide Li[Li0.2Ni0.2Mn0.6]O-2 with tightly interconnected particles as cathode of lithium ion batteries with improved rate capability
|
期刊论文 |
Xiang, Xingde|Li, Weishan| |
92 |
Anti-thermal shrinkage nanoparticles/polymer and ionic liquid based gel polymer electrolyte for lithium ion battery
|
期刊论文 |
Y. H. Liao, C. J. Sun, S. J. Hu, W. S. Li*| |
93 |
On anodic stability and decomposition mechanism of sulfolane in high-voltage lithium ion battery
|
期刊论文 |
Y. T. Wang|H. B. Zhou|R. H. Zeng|W. S. Li| |
94 |
Nanoconic TiO2 hollow spheres: novel buffers architectured for high-capacity anode materials
|
期刊论文 |
J.F.Lei, EltonJ.Cairns|W.S.Li|X.P.Li|E. J. Cairns| |
95 |
Properties of solid electrolyte interphase formed byprop-1-ene-1,3-sultone on graphite anode of Li-ion batteries
|
期刊论文 |
L. Yang|L. Liu|S. J. Hu|W. S. Li∗| |
96 |
Prop-1-ene-1,3-sultone as SEI formation additive in propylene carbonate-based electrolyte for lithium ion batteries
|
期刊论文 |
B. Li, M. Q. Xu, T. T. Li, W. S. Li*,S. J. Hu,| |
97 |
Self-discharge suppression of 4.9 V LiNi0.5Mn1.5O4 cathode by using tris(trimethylsilyl)borate as electrolyte additive
|
期刊论文 |
M. Q. Xu|L. D. Xing|Y. H. Liao|李伟善| |
98 |
Preparation and characterization of size-uniform Li[Li0.131Ni0.304Mn0.565]O2 particles as cathode materials for high energy lithium ion battery
|
期刊论文 |
X. D. Xiang|X. Q. Li|W. S. Li| |
99 |
Methylene Methanedisulfonate (MMDS) as a Novel SEI Forming Additive on Anode for Lithium Ion Batteries
|
期刊论文 |
S. W. Mai, M. Q. Xu,*, Y. T. Wang, X. L. Liao, H.| |
100 |
Tris(pentafluorophenyl) phosphine: An electrolyteadditive for high voltage Li-ion batteries
|
期刊论文 |
B. Li|W. S. Li|X. P. Li|S. J. Hu| |
101 |
Improved electrochemical performance of LiNi0.5Mn1.5O4 as cathode of lithium ion battery by Co and Cr co-doping
|
期刊论文 |
Lin, Haibin|Xing, Lidan|Wang, Yating|Li, Weishan| |
102 |
储能锂离子电池关键材料研究进展
|
期刊论文 |
李伟善| |
103 |
Poly(methyl methacrylate-acrylonitrile-ethyl acrylate) terpolymer based gel electrolyte for LiNi0.5Mn1.5O4 cathode of high voltage lithium ion battery
|
期刊论文 |
P. Sun, Y. H. Liao*, H. L. Xie, T. T. Chen, M. M.| |
104 |
Improving the properties of HDPE based separators for lithium ion batteries by blending block copolymer PE-b-PEG
|
期刊论文 |
H. Li|L. F. Fang|Z. Y. Liang|B. K. Zhu| |
105 |
Structural properties and electrochemical behavior of cone-like TiO2: emphasizing the contributions of structure and spatial arrangement to lithium storage
|
期刊论文 |
R. H. Wei|J. Ni|H. B. Li|W. S. Li| |
106 |
Improving high voltage stability of lithium cobalt oxide/graphite battery via forming protective films simultaneously on anode and cathode by using electrolyte additive
|
期刊论文 |
B. Li, Y. Q. Wang, H. B. Lin, J. S. Liu, L. D. Xi| |
107 |
Tris(trimethylsilyl)phosphite as electrolyte additive for high voltage layered lithium nickel cobalt manganese oxide cathode of lithium ion battery
|
期刊论文 |
L. D. Xing|Y. H. Liao|X. P. Li|W. S. Li| |
108 |
Improving high voltage stability of lithium cobalt oxide/graphite battery via forming protective films simultaneously on anode and cathode by using electrolyte additive
|
期刊论文 |
J. S. Liu|L. D. Xing|M. Q. Xu|W. S. Li| |
109 |
Self-discharge suppression of 4.9 V LiNi0.5Mn1.5O4 cathode by using tris(trimethylsilyl)borate as an electrolyte additive
|
期刊论文 |
M. Q. Xu|L.D. Xing|Y.H. Liao|W. S. Li| |
110 |
Li6Zr2O7 interstitial lithium-ion solid electrolyte
|
期刊论文 |
P. Singh|K. S. Park|W. S. Li|J. B. Goodenough| |
111 |
Enhanced performance of modified HDPE separators generated from surface enrichment of polyether chains for lithium ion secondary battery
|
期刊论文 |
J.L.Shi, L.F.Fang, H.Li, Z.Y.Liang, B.K.Zhu| |
112 |
Polyethylene-supported polyvinylidene ?uoride-cellulose acetate butyrate blended polymer electrolyte for lithium ion battery
|
期刊论文 |
23. J. S. Liu, W. S. Li*, X. X. Zuo, S. Q. Liu, Z| |
113 |
Improving the properties of HDPE based separators for lithium ion batteries by blending block with copolymer PE-b-PEG
|
期刊论文 |
Li H.|Fang L.F.|Liang Z.Y.|Zhu B.K.| |
114 |
Performance improvement of phenyl acetate as propylene carbonate-based electrolyte additive for lithium ion battery by fluorine-substituting
|
期刊论文 |
B. Li, Y. Q. Wang, H. B. Lin, X. S. Wang, M. Q. X| |
115 |
锂电池单质硫/碳复合正极材料的研究进展
|
期刊论文 |
耿秀玉|孙娉|李小平|李伟善| |
116 |
Sodium Intercalation Behavior of Layered NaxNbS2 (0 <= x <= 1)
|
期刊论文 |
Xiao, Penghao|Henkelman, Graeme|Li, Weishan|Goodenough, John B.| |
117 |
Highly dispersed sulfur in multi-walled carbon nanotubes for lithium/sulfur battery
|
期刊论文 |
X. Y. Geng, M. M. Rao, X. P. Li, W. S. Li*| |
118 |
基于超高分子量聚(苯乙烯-马来酸酐)的微-纳杂化表面的构造
|
期刊论文 |
王建华|朱宝库|朱利平|徐又一| |
119 |
Quantum chemistry study of the oxidation-induced stability and decomposition of propylene carbonate-containing complexes
|
期刊论文 |
Huang, Wenna|Xu, Mengqing|Li, Xiaoping|Li, Weishan| |
120 |
Dimethoxydiphenylsilane (DDS) as an Electrolyte Additivefor High Voltage Li-ion Batteries
|
期刊论文 |
S.W. Mai|M. Q. Xu*|L.D. Xing|W. S. Li| |
121 |
Performance improvement of phenyl acetate as propylene carbonate-based electrolyte additive for lithium ion battery by fluorine-substituting
|
期刊论文 |
B. Li, Y. Q. Wang, H. B. Lin, X. S. Wang, M. Q. X| |
122 |
锂离子电池用PVDF/P(MMA-co-DMAEMA)共混隔膜的制备与性能
|
期刊论文 |
姚之侃|王婷|朱宝库|朱利平| |
123 |
How does Lithium Salt Anion Affect Oxidation Decomposition Reaction of Ethylene Carbonate: a Density Functional Theory Study
|
期刊论文 |
T. T. Li, L. D. Xing, W. S. Li*, Y. T. Wang, M. Q| |
124 |
Tris (pentafluorophenyl) phosphine: A dual functionality additive for flame-retarding and sacrificial oxidation on LiMn2O4 for lithium ion battery
|
期刊论文 |
Li Bin|Xing Lidan|Wang Yong|Li Weishan| |
125 |
Preparation and characterization of safety PVDF/P(MMA-co-PEGMA) active separators by studying the liquid electrolyte distribution in this kind of membrane
|
期刊论文 |
Shi J.L.|Ma X.T.|Zhu B.K.|Zhu L.P.| |
126 |
Acetylene black-embedded LiMn0.8Fe0.2PO4/C composite as cathode for lithium ion battery
|
期刊论文 |
y. Wang|L. Xue|X. P. Li|W. S. Li| |
127 |
New solution to instability of spinel LiNi0.5Mn1.5O4 as cathode for lithium ion battery at elevated temperature
|
期刊论文 |
L. D. Xing|M. Q. Xu|H. B. Lin|W. S. Li| |
128 |
Preparation and characterization of size-uniform Li[Li0.131Ni0.304Mn0.565]O2 particles as cathode materials for high energy lithium ion battery
|
期刊论文 |
X. D. Xiang|X. Q. Li|W. S. Li| |
129 |
Porous LiMn2O4 cubes architectured with single-crystalline nanoparticles and exhibiting excellent cyclic stability and rate capability as the cathode of a lithium ion battery
|
期刊论文 |
Xing, L. D.|Xu, M. Q.|Li, X. P.|Li, W. S.| |
130 |
Performance improvement of phenyl acetate as propylene carbonatebased electrolyte additive for lithium ion battery by fluorinesubstituting
|
期刊论文 |
M. Q. Xu|Y.T. Wang|L.D. Xing|W. S. Li| |
131 |
Performance improvement of graphite/LiNi0.4Co0.2Mn0.4O2 battery at highvoltage with added Tris(trimethylsilyl) phosphate
|
期刊论文 |
W. Z. Huang|X. L. Liao|L. D. Xing|W. S. Li| |
132 |
Aminolytic depolymerization of polyarylsulfones
|
期刊论文 |
Hong Zhang|Baoku Zhu|Liping Zhu|Youyi Xu| |
133 |
Microemulsion-assisted synthesis of ultrafine Li4Ti5O12/C nanocomposite with oleic acid as carbon precursor and particle size controller
|
期刊论文 |
B. Z. Li|L. D. Xing|X. P. Li|W. S. Li| |
134 |
Gel polymer electrolyte-based on PVDF/fluorinated amphiphilic copolymer blends for high performance lithium-ion batteries
|
期刊论文 |
H. Zhang|X. T. Ma|C. E. Lin|B. K. Zhu| |
135 |
Improved rate performance of LiNi0.5Mn1.5O4 cathode for lithium ion battery by carbon coating
|
期刊论文 |
Y. H. Liao|L.Yang|X.P. Li|W. S. Li| |
136 |
Improving cyclic stability of lithium nickel manganese oxide cathode at elevated temperature by using dimethyl phenylphosphonite as electrolyte additive
|
期刊论文 |
M. Q. Xu|X. L. Liao|L. D. Xing|W. S. Li| |
137 |
Porous layered lithium-rich oxide nanorods: Synthesis and performances as cathode of lithium ion battery
|
期刊论文 |
L.W. Xiong|Y. H. Liao|L. D. Xing|W. S. Li| |
138 |
Treble-shelled Mn2O3 Hollow Nanocubes: Force-induced Synthesis and Excellent Performance as Anode of Lithium-ion Battery
|
期刊论文 |
H. B. Lin, H. B. Rong, W. Z. Huang, Y. H. Liao, L| |
139 |
Highly dispersed sulfur in multi-walled carbon nanotubes for lithium/sulfur battery
|
期刊论文 |
X. Y. Geng, M. M. Rao, X. P. Li, W. S. Li*| |
140 |
Treble-shelled Mn2O3 Hollow Nanocubes: Force-induced Synthesis and Excellent Performance as Anode of Lithium-ion Battery
|
期刊论文 |
H. B. Lin, H. B. Rong, W. Z. Huang, Y. H. Liao, L| |
141 |
有机/无机杂化纳米粒子共混改性聚偏氟乙烯多孔膜及其表面两性离子化的研究
|
期刊论文 |
徐又一|朱宝库|陈亦力|刘德祥| |
142 |
Polycarbonyl(quinonyl) organic compounds as cathode materials for sustainable lithium ion batteries: lithium storage mechanism
|
期刊论文 |
Y. C. Qiu|Y. T. Wang|W. N. Huang|W. S. Li| |