個人簡介
劉恆 ,1982年初獲中南大學學士學位,1986年獲四川大學碩士學位、2000年獲四川大學博士學位。1990 -1991年英國Warren Spring研究院,威爾斯大學訪問學者,2003年澳大利亞Wollongong大學訪問學者。先後主持或主研完成國家自然科學基金、國家支撐計畫、四川省科技攻關項目,四川省國際合作項目,四川省重點科研項目、教育部博士點基金、四川省套用基礎研究和企業橫向科研項目等共30多項。在國內外發表研究論文100餘篇,其中80多篇被SCI,EI收錄。授權專利5項,主編和參編學術論著五部。
目前主要研究領域:電池材料,新型儲能材料,納米及納米結構材料。
近期代表性論文
Yuan, Demao; Cheng, Jianli; Qu, Guoxing; Li, Xiaodong; Ni, Wei; Wang, Bin; Liu, Heng, Amorphous red phosphorous embedded in carbon nanotubes scaffold as promising anode materials for lithium-ion batteries, Journal of Power Sources, 2016, 301: 131-137;
Wang,Zhen; Liu,Heng; Wu,Jian; Lau,Woonming; Mei,Jun; Liu,Hao; Liu,Guobiao; Hierarchical LiNiCoAlOplates with exposed {010} active planes as a high performance cathode material for Li-ion batteries, RSC Adv., 2016, 6: 32365-;
Shen,Huihui; Xiang,Wei; Shi,Xiaxing; Zhong,Benhe; Liu,Heng; Hierarchical LiMnFePO/C nanorods with excellent electrochemical performance synthesized by rheological phase method as cathode for lithium ion battery, Ionics, 2016, 22:193–200;
Zhang JiBin, Wu ZhenGuo, Hua WeiBo, Liu Heng, Zhong BenHe, High-performance porous spherical cathode materials based on CaCO-template synthesis of LiNiCoMnOfor lithium-ion batteries, Ionics, 2015, 21:3151–3158;
LiuXue-Bao; LiuGuo-Biao; WangYan; ChenChen; LiJian-Long; Liu Heng; Influence of pH Value on the Properties of NHFe(OH)(PO).2HO Precursor and LiFePO/C Composite, Journal of Electronic Materials, 2015, 44(3):1008-1014;
TangYan; OuQingzhu; ZhongYanjun; Liu Heng; ZhongBenhe; GuoXiaodong; ChenMingzhe;Facile synthesis of porous LiV(PO)/C composite and its superior electrochemical performance for lithium ion battery, Materials Letters, 2015,142:189-192;
ChenYu; ChenCheng; ChenWei; Liu Heng; ZhuJianguo;Influence of thermal-decomposition temperatures on structures and properties of VOas cathode materials for lithium ion battery, Progress in Natural Science: Materials Engineering, 2015, 25(1): 42-46;
Wei-Bo Hua, Xiao-Dong Guo, Zhuo Zheng, Yan-Jie Wang, Ben-He Zhong, Baizeng Fang, Jia-Zhao Wang, Shu-Lei Chou, Heng Liu, Uncovering a facile large-scale synthesis of LiNi1/3Co1/3Mn1/3O2 nanoflowers for high power lithium-ion batteries, Journal of Power Sources, 2015, 275, 200-206;
Shi-Xuan Liao, Yan-Jun Zhong, Ben-He Zhong, Heng Liu, Xiaodong Guo, Effective enhancement of electrochemical performance for low-cost cathode material Li1.231Mn0.615Ni0.154O2 via a novel facile hydrothermal modification, Journal of Power Sources, 2014, 246 ,569-573;
Lei-lei Peng , Guo-biao Liu, Yan Wang, Zhen-li Xu,Heng Liu, A comparison of sulfur loading method on the electrochemical performance of porous carbon/sulfur cathode material for lithium–sulfur battery, Journal of Solid State Electrochemistry,2014,18,935–940;
Jianlong Li, Jinhua Wu, Yan Wang, Guobiao Liu, Chen Chen, Heng Liu,Synthesis of LiFePO4/C composite with high rate capability using spheniscidite as a facile precursor, 2014,136, 282–285;
G.B.Liu,H.Liu,Y.F.Shi,TheSynthesisandElectrochemicalPropertiesofxLiMnO-(1-x)MO(M=MnNiFeviaCo-precipitationMethod,Electrochimica Acta,2013,88(1):112-116;
G.B. Liu, H.Liu, Y.Wang,Y.F.Shi,Y.Zhang,The electrochemical properties of Fe- and Ni-cosubstituted LiMnOvia combustion method,J Solid State Electrochem,2013,17:2437–2444;
C. Chen, G.B. Liua, Y.Wang, J.L. Li, H. Liu,Preparation and electrochemical properties of LiFePO/C nanocomposite using FePO·2HO nanoparticles by introduction of Fe(PO)·8HO at low cost,Electrochimica Acta,2013,113:464– 469;
Y.F.Shi,H.Liu,G.B.Liu,X.W.You,The preparation and electrochemical properties of the Li-excess cathode material Li(MnFe)Oby coprecipitation method,Ionics,2013,19:1503–1508;
W.Wang, H.Liu, Y.Wang, C.Gao, J.Zhang,Effects of chromium doping on performance of LiNiMnOcathode material,Trans. Nonferrous Met. Soc. China,2013,23:2066−2070;
C.Gao, H.Liu, G.B.Liu,J.Zhang, W.Wang, High-rate performance ofxLiFePO·yLiV(PO)/C composite cathode materials synthesized via polyol process,Materials Science & Engineering B,2013,178(3):272-276;
Y.H.Wang,H.Liu,D.Zhu,Z.P.Guo,H.K.Liu,S.X.Dou, Preparation and electrochemical performance of hollow-spherical polypyrrole/VOcomposite,Trans. Nonferrous Met. Soc. China,2011,21(6):1303-1308;
X.D.Guo,B.H.Zhong,H.Liu, Electrochemical performance of LiFePO-LiV(PO)composite material prepared by solid-hydrothermal method, Trans. Nonferrous Met. Soc. China,2011, 21(8):1761-1766;
X.D.Guo,B.H.Zhong,H.Liu,The Preparation of LiFePO/C Cathode by a Modified Carbon-Coated Method,Journal of the Electrochemical Society, 2009,156: 10-
C.Yu, H.Liu,W.L.Ye,Preparation and electrochemical properties of submicron spherical VOas cathode material for lithium ion batteries,ScriptaMaterialia,2008,59(3): 372-375
D.Zhu, H.Liu,L.Lv, Hollow microspheres of VOand Cu-doped VOas cathode materials for lithium-ion batteries, ScriptaMaterialia,2008,59(6): 642-645
H.G.Sun, H.Liu, W.Liu,Y.L.Luan,Fine Lithium Iron(II) Phospho-Olivine Prepared by Two Different Methods,Key Engineering Materials,2007,v336-338:521-523
Z.P. Guo, H. Liu, S. Bewlay, H.K. Liu, and S.X. Dou, A new synthetic method for preparing LiFePOwith enhanced electrochemical performance, Journal of New Materials for Electrochemical Systems, 2003, 6(4):259-262
Z.P.Guo, H.Liu,S.Bewlay,H.K.Liu,S.X.Dou,Fine-particle carbon-enriched LiMgFePOsynthesized by a novel modified solid-state reaction,Synthetic Metals,2005,153 (1-3): 113-116
Z.P. Guo, H. Liu, H.K. Liu, “Characterization of layered Li[CoMnNi]Ocathode materials prepared by spray-drying method”, Journal of New Materials for Electrochemical Systems, 2003,6(4):263-266
1.Yuan, Demao; Cheng, Jianli; Qu, Guoxing; Li, Xiaodong; Ni, Wei; Wang, Bin; Liu, Heng, Amorphous red phosphorous embedded in carbon nanotubes scaffold as promising anode materials for lithium-ion batteries, Journal of Power Sources, 2016, 301: 131-137;
2.Wang,Zhen; Liu,Heng; Wu,Jian; Lau,Woonming; Mei,Jun; Liu,Hao; Liu,Guobiao; Hierarchical LiNiCoAlOplates with exposed {010} active planes as a high performance cathode material for Li-ion batteries, RSC Adv., 2016, 6: 32365-;
3.Shen,Huihui; Xiang,Wei; Shi,Xiaxing; Zhong,Benhe; Liu,Heng; Hierarchical LiMnFePO/C nanorods with excellent electrochemical performance synthesized by rheological phase method as cathode for lithium ion battery, Ionics, 2016, 22:193–200;
4.Zhang JiBin, Wu ZhenGuo, Hua WeiBo, Liu Heng, Zhong BenHe, High-performance porous spherical cathode materials based on CaCO-template synthesis of LiNiCoMnOfor lithium-ion batteries, Ionics, 2015, 21:3151–3158;
5.:
6.:
7.ChenYu; ChenCheng; ChenWei; Liu Heng; ZhuJianguo;Influence of thermal-decomposition temperatures on structures and properties of VOas cathode materials for lithium ion battery, Progress in Natural Science: Materials Engineering, 2015, 25(1): 42-46;
8.Wei-Bo Hua, Xiao-Dong Guo, Zhuo Zheng, Yan-Jie Wang, Ben-He Zhong, Baizeng Fang, Jia-Zhao Wang, Shu-Lei Chou, Heng Liu, Uncovering a facile large-scale synthesis of LiNi1/3Co1/3Mn1/3O2 nanoflowers for high power lithium-ion batteries, Journal of Power Sources, 2015, 275, 200-206;
9.Shi-Xuan Liao, Yan-Jun Zhong, Ben-He Zhong, Heng Liu, Xiaodong Guo, Effective enhancement of electrochemical performance for low-cost cathode material Li1.231Mn0.615Ni0.154O2 via a novel facile hydrothermal modification, Journal of Power Sources, 2014, 246 ,569-573;
10.Lei-lei Peng , Guo-biao Liu, Yan Wang, Zhen-li Xu,Heng Liu, A comparison of sulfur loading method on the electrochemical performance of porous carbon/sulfur cathode material for lithium–sulfur battery, Journal of Solid State Electrochemistry,2014,18,935–940;
11.Jianlong Li, Jinhua Wu, Yan Wang, Guobiao Liu, Chen Chen, Heng Liu,Synthesis of LiFePO4/C composite with high rate capability using spheniscidite as a facile precursor, 2014,136, 282–285;
12.G.B.Liu,H.Liu,Y.F.Shi,TheSynthesisandElectrochemicalPropertiesofxLiMnO-(1-x)MO(M=MnNiFeviaCo-precipitationMethod,Electrochimica Acta,2013,88(1):112-116;
13.G.B. Liu, H.Liu, Y.Wang,Y.F.Shi,Y.Zhang,The electrochemical properties of Fe- and Ni-cosubstituted LiMnOvia combustion method,J Solid State Electrochem,2013,17:2437–2444;
14.C. Chen, G.B. Liua, Y.Wang, J.L. Li, H. Liu,Preparation and electrochemical properties of LiFePO/C nanocomposite using FePO·2HO nanoparticles by introduction of Fe(PO)·8HO at low cost,Electrochimica Acta,2013,113:464– 469;
15.Y.F.Shi,H.Liu,G.B.Liu,X.W.You,The preparation and electrochemical properties of the Li-excess cathode material Li(MnFe)Oby coprecipitation method,Ionics,2013,19:1503–1508;
16.W.Wang, H.Liu, Y.Wang, C.Gao, J.Zhang,Effects of chromium doping on performance of LiNiMnOcathode material,Trans. Nonferrous Met. Soc. China,2013,23:2066−2070;
17.C.Gao, H.Liu, G.B.Liu,J.Zhang, W.Wang, High-rate performance ofxLiFePO·yLiV(PO)/C composite cathode materials synthesized via polyol process,Materials Science & Engineering B,2013,178(3):272-276;
18.Y.H.Wang,H.Liu,D.Zhu,Z.P.Guo,H.K.Liu,S.X.Dou, Preparation and electrochemical performance of hollow-spherical polypyrrole/VOcomposite,Trans. Nonferrous Met. Soc. China,2011,21(6):1303-1308;
19.X.D.Guo,B.H.Zhong,H.Liu, Electrochemical performance of LiFePO-LiV(PO)composite material prepared by solid-hydrothermal method, Trans. Nonferrous Met. Soc. China,2011, 21(8):1761-1766;
20.X.D.Guo,B.H.Zhong,H.Liu,The Preparation of LiFePO/C Cathode by a Modified Carbon-Coated Method,Journal of the Electrochemical Society, 2009,156: 10-
21.C.Yu, H.Liu,W.L.Ye,Preparation and electrochemical properties of submicron spherical VOas cathode material for lithium ion batteries,ScriptaMaterialia,2008,59(3): 372-375
22.,
23.H.G.Sun, H.Liu, W.Liu,Y.L.Luan,Fine Lithium Iron(II) Phospho-Olivine Prepared by Two Different Methods,Key Engineering Materials,2007,v336-338:521-523
24.Z.P. Guo, H. Liu, S. Bewlay, H.K. Liu, and S.X. Dou, A new synthetic method for preparing LiFePOwith enhanced electrochemical performance, Journal of New Materials for Electrochemical Systems, 2003, 6(4):259-262
25.Z.P.Guo, H.Liu,S.Bewlay,H.K.Liu,S.X.Dou,Fine-particle carbon-enriched LiMgFePOsynthesized by a novel modified solid-state reaction,Synthetic Metals,2005,153 (1-3): 113-116
26.Z.P. Guo, H. Liu, H.K. Liu, “Characterization of layered Li[CoMnNi]Ocathode materials prepared by spray-drying method”, Journal of New Materials for Electrochemical Systems, 2003,6(4):263-266