Acta Phys. -Chim. Sin.
Acta Phys. -Chim. Sin.
2007 Vol. 23,No. Supp
Published:04 January 2008
Date of publication: 04 January 2008
Performance of Liquid Electrolyte for Lithium-ion Battery at Elevated-temperature
GUO Ying-Jun; LI Qi-Qi-Ge; NING Ying-Kun; QI Lu; TANG Hong-Wu
A new functional electrolyte was developed to improve the cycling performance of LiMn2O4 spinel at elevated temperatures...
2007, 23 (Supp): 1-4.
Electrochemical Performance of Novel Li
WU Ke; WANG Yin-Ping; WANG Jian; LI Yong-Wei; AN Ping; QI Lu
A novel Li4Ti5O12/LiPF6/EC+EMC+DMC (1:1:1 mass ratio)/LiMn2O4 lithium battery of 18650 type was developed and the electr...
2007, 23 (Supp): 5-9.
Chemical Pattern Recognition Applied to the Analysis of Effect of Technology Factors on the Properties of Li-Mn-O Spinel Oxide
LI Wei; Tong-Ge-La-Ge; MU Qi-Yong; QI Lu; GUO Jin
The discharge capacity and the cycle lifetime of Li-Mn-O spinel oxide with different technology factors were analyzed by...
2007, 23 (Supp): 10-13.
Electrochemical Performances of LiMn
-based Electrode with Water-soluble Binder
WANG Ya-Dan; WANG Jian; MU Qi-Yong; LI Yong-Wei; QI Lu
The spinel LiMn2O4 was synthesized by high temperature solid-state reaction and its structure and morphology were analyz...
2007, 23 (Supp): 14-17.
Application of Polymer LithiumIon Batteries Based on IPN
A novel gel interpenetrating polymer network (IPN) was formed by using PVDF-HFP (poly(vinylidene fluoride)-co-hexafluoro...
2007, 23 (Supp): 18-20.
Electrochemical Performance of LithiumIon Battery Power Syetemfor Electric Vehicles
QI Lu; SONG Zhao-Shuang; XU Hua; MAO Yong-Zhi; WU Ning-Ning; LIU Zheng-Yao
60 Ah Lithium ion battery was prepared by using of spinel LiMn2O4, and 60 Ah 288 V portable power system were developed....
2007, 23 (Supp): 21-25.
Synthesis Mechanisms and Properties of Cathode Material LiNi
CHEN Yong-Chong; XU Xing-Jun; CUI Hong-Zhi; DAI Ke-Hua; SONG Zhao-Shuang; JIANG Wei-Jun; QI Lu
The synthesis reaction mechanisms were analyzed for the cathode materials LiNixMn2-xO4, which were synthesized by the so...
2007, 23 (Supp): 26-30.
Performance of LiMn
as 5V Cathode Material for Lithium-ion Battery
ZHANG Chun-Ling; JIANG Wei-Jun; ZHANG Jing; QI Lu
The product LiMn1.5Ni0.5-xCuxO4 with cubic spinel structure was synthesized by a chemical co-precipication method. MnSO4...
2007, 23 (Supp): 31-35.
Electrochemical Performance of LiMn
FAN Mao-Song; LEI Xiang-Li; WU Ning-Ning; QI Lu
The physical character of LiMn2O4 sample was investigated through XRD and SEM, then the best voltage scale of spinel LiM...
2007, 23 (Supp): 36-39.
Synthesis and Properties of Layered LiN
HOU Xian-Quan; JIANG Wei-Jun; QI Lu; HAN Li-Juan
LiNi0.8Co0.2-xMgxO2 (x=0.02, 0.03, 0.04) cathode materials were synthesized by co-precipitation method. The materials we...
2007, 23 (Supp): 40-45.
Discharge Performances of C/LiNi
WANG Jian; QI Yu-Jun; LI Yong-Wei; QI Lu
18650 type Li ion secondary cells were developed using carbon as anode material and LiNi1/3Co1/3·Mn1/3O2 as cathode mate...
2007, 23 (Supp): 46-50.
2,5-Dimercapto-1,3,4-Thiadiazole for Lithium Batteries by Poly(3,4-ethylenedioxythiophene)
ZHANG Jing-Hua; ZHANG Yong-Sheng; ZHENG Mian-Ping; QI Lu; FENG Bo LI Li
High electrocatalytic activity of an electropolymerized film of poly (3,4-ethylenedioxythiophene) (PEDOT) was reported t...
2007, 23 (Supp): 51-55.
Performance of Nonstoichiometric Li
JIANG Wei-Jun; Sai-Xi-Ya-Le-Tu; Wu-Yun-Bi-Li-Ge; QI Lu; SHANG Shi-Bo
LiCoO2 and nonstoichiometric Li1+xCoO2(x=0.02, 0.05) cathode materials were synthesized under various nLi/nCo ratio. X-r...
2007, 23 (Supp): 56-59.
Electrochemical Performance of LithiumIon Battery for Plug-in Hybrid Electric Vehicle Applications
AN Hong-Li; WU Ning-Ning; LEI Xiang-Li; XU Jin-Long; QI Lu
With the application of spinel LiMn2O4 cathode material and new seperator, a 60 Ah LiMn2O4-based lithium ion battery for...
2007, 23 (Supp): 60-66.
Electrospinning and Electrospun Membranes
WANG Hai-Yan; LIU Xin-Hou; WU Da-Yong
Electrospinning is a powerful and versatile method to fabricate nanofibers and electrospun membranes. The principle, dev...
2007, 23 (Supp): 67-74.
Progress in High Power Lithium-ion Secondary Battery
WANG Jian; LI Tong-Jin; QI Lu
Along with the improvement and development of lithium-ion battery materials and technology, there has seen great improve...
2007, 23 (Supp): 75-79.
Progress in Electrolyte Solutions for Lithium-ion Battery
GUO Ying-Jun; CHEN Hui; QI Lu
Electrolyte solution plays a great importance on the performances of lithium-ion batteries, such as cyclability, safety,...
2007, 23 (Supp): 80-89.
Research and Development of Separators for Lithium-ion Battery
DENG Zheng-Hua; LI Ren-Gui; WANG Lu; DENG Jia-Min; GAO Jian-Dong; MA Zhi-Gang; DU Hong-Chang; SUO Ji-Shuan
The research progress in the preparation methods of the separators for lithium-ion secondary batteries was summarized. T...
2007, 23 (Supp): 90-93.
Quality Evaluation of GroupMotive Lithium-ion Battery
HAO Yong-Chao; QIAN Liang-Guo; XIAO Ya-Ling
At present, the applications of motive batteries in EV are extensively used, because of complicate circumstance the cons...
2007, 23 (Supp): 94-99.
Application and Technology of Aluminum Bag Lithium-Ion Polymer Battery
LEE Meng-Lung; LEE Yi-Da; CHANG Chie-Tai; GAO Tong-Han; LEE Torng-Jinn
There are lots of researches, developments, and applications about high power lithiumion battery recently because of its...
2007, 23 (Supp): 100-106.
Development of Electric Vehicles and Battery System
MAO Yong-Zhi; ZHANG Chong; LI Yong-Wei; QI Lu
This paper describe the phylogeny and actuality of electric vehicles (EV) as well as the battery and motor system of EV....
2007, 23 (Supp): 107-112.
Information about the Meeting
2007, 23 (Supp): 113-120.