张联齐,出生于1973年7月,
日本佐贺大学博士毕业,
天津理工大学教授。
人才称号
教育部新世纪优秀人才支持计划人选 ;天津市“131”创新型人才培养工程第一层次人选 ;天津市高等学校特聘教授 ;
学术兼职
ACS Applied Materials & Interfaces,Journal of Power Sources,Electrochimica Acta,Journal of Solid State Electrochemistry等期刊审稿人
主要贡献
张联齐, 2008年6月回国,先后就职于中国电子科技集团公司第18研究所和天津理工大学,天津理工大学教授,天津市特聘教授。2010年获得教育部新世纪优秀人才称号,2011年获天津市131第一层次创新人才称号,2012年获天津市特聘教授称号。
2010.11-, 研究员,
天津理工大学材料科学与工程学院;
2008.6-2010.10,高级工程师,
中国电子科技集团公司第十八研究所/化学与物理电源国防重点实验室;
2007.4-2008.5,博士后,
日本东京工业大学;
2003.4-2007.3,特别研究员/博士后,日本物质材料研究机构;
2000.4-2003.3,博士生,日本佐贺大学;
1996..9-2000.2,硕博连读生,中国科学院理化研究所(原感光所)
科研项目:
依托单位天津理工:
[1]电动汽车淘汰的
锂离子动力电池绿色回收处理再资源化的关键技术及设备研发 . 天津市科技支撑重点项目,2014-2016,75万元,负责人
[2]核壳结构的富锂相层状固溶体锂离子电池材料设计、制备极其性能改善机理研究 .
国家自然基金,2013-2016,80万,负责人
[3]全固态锂离子储能电池研究 . 科技部863储能项目子课题,2013-2015,80万,子课题负责人
[4]天津市高校“中青年骨干创新人才培养计划”项目, 2012年12月—2015年11月,45万,负责人
[5]高性能锂镍钴铝酸盐(NCA)锂离子电池正极材料关键制备技术研究 . 横向项目(NEC),2012-2013,30万,负责人
[6]动力电池发展趋势研究 . 横向项目(天津清源),2012-2013,12万,负责人
[7]车载电量测试系统研究 . 横向项目(天津清源),2012-2013,18万,负责人
[8]高性能富锂锰氧锂离子电池用正极材料的开发 . 横向项目(天津捷威动力),2012-2013,30万,负责人
[9]新型核壳结构或浓度梯度分布的层状三元材料 . 教育部新世纪优秀人才支持计划,2011-2013,50万,负责人
[10]
磷酸铁锂正极材料关键制备技术研究 . 横向项目(河北力通),2011-2012,30万,负责人
[11]动力电池及关键材料共性技术及评价体系研究 . 科技部863电动车项目,2011-2013,83.97万,子课题负责人
[12]新型高性能层状锂离子电池正极材料及其关键制备技术研究 . 横向项目(中兴新通讯),2010-2012,120万,负责人
[13]锂离子电池关键材料 . 天津理工大学启动资金,2010-,40万,负责人
依托单位十八所:
[14] [2010] 总装支撑项目“XXX”,
中国人民解放军总装备部,2010-2012,15万,负责人;
[15] [2009] 国防973项目“XXX” 中国人民解放军总装备部,2009-2013,1000多万(总金费2600多万),第一课题负责人;
[16] [2009] 新型高性能锂离子电池材料关键制备技术研究,留学回国人员择优资助项目(
国家人事部),2009-2011,6万,负责人;
近期发表的论文
[1]Long Xu, Peiyu Hou, Yantao Zhang, Hongzhou Zhang, Dawei Song*, Xixi Shi, Xiaoqing Wang and Lianqi Zhang* . Carbonate coprecipitation preparation of Li-rich layered oxides using oxalate anion ligand as high-energy, high-power and durable cathode materials for lithium-ion batteries. J. Mater. Chem. A (accepted)(IF=7.443)
[2]Peiyu Hou,Geng Chu,Jian Gao,Yantao Zhang,Lianqi Zhang*. Li-ion batteries: phase transition. Chinese Physics B (Accepted)(IF=1.603)
[3]Dawei Song,Peiyu Hou, Xiaoqing Wang, XiXi Shi, Lianqi Zhang*. Understanding the Origin of Enhanced Performances in Core-shell and Concentration-gradient Layered Oxide Cathode Materials. ACS Applied Materials & Interfaces 7 (2015) 12864-12872 (IF=6.723)
[4]Yantao Zhang, Peiyu Hou, Enlou Zhou, Xixi Shi*, Xiaoqing Wang, Dawei Song, Jian Guo, Lianqi Zhang*. Pre-heat treatment of carbonate precursor firstly in nitrogen and then oxygen atmospheres: a new procedure to improve tap density of high-performance cathode material Li1.167(Ni0.139Co0.139Mn0.556)O2 for lithium ion batteries. Journal of Power Sources 292 (2015) 58-65 (IF=6.217)
[5]Chao Zhang, Peiyu hou, Xixi Shi*, Dawei Song, Jishun Song and Lianqi Zhang*. Synthesis and electrochemical characteristics of Li1.2(Ni0.2Mn0.6)x(Co0.4Mn0.4)y(Ni0.4Mn0.4)1-x-yO2 (0≤x+y≤1) cathode materials for lithium ion batteries. RSC Adv., 5 (2015) 36015-36021 (IF=3.84)
[6]Peiyu Hou, Long Xu, Jishun Song, Dawei Song*, Xixi Shi, Xiaoqing Wang and Lianqi Zhang* . A high energy density Li-rich positive-electrode material with superior performances via a dual chelating agent co-precipitation route. J. Mater. Chem. A, 3 (2015) 9427-9431(IF=7.443)
[7]Peiyu Hou, Jie Wang, Jishun Song, Dawei Song*, Xixi Shi, Xiaoqing Wang, and Lianqi Zhang*. A stable Li-deficient oxide as high-performance cathode for advanced lithium-ion batteries. Chemical Communications 51 (2015) 3231 - 3234(IF=6.834)
[8]Wenbin Sun, Man Xie, Xixi Shi*, Lianqi Zhang*. Study of new phases grown on LiNbO3 coated LiCoO2 cathode material with an enhanced electrochemical performance. Materials Research Bulletin 61(2015)287-291 (IF=2.288)
[9]Hehe Nie, Long Xu, Dawei Song*, Jishun Song, Xixi Shi, Xiaoqing Wang, Lianqi Zhang* and Zhihao Yuan. LiCoO2: Green recycling from spent batteries and regeneration with solid state synthesis. Green Chemistry 17 (2015) 1276 - 1280 (IF=8.02)
[10]Xixi Shi, Chiwei Wang, Yantao Zhang, Qian Liu, Hong Li, Dawei Song, Lianqi Zhang*. Structure and electrochemical behaviors of spherical Li1+xNi0.5Mn0.5O2+δ synthesized by rheological phase reaction method. Electrochimica Acta 150 (2014) 89-98 (IF=4.504)
[11]Peiyu Hou, Xiaoqing Wang, Dawei Song*, Xixi Shi, Lianqi Zhang*, Jian Guo, Jun Zhang. Design, synthesis, and performances of double-shelled LiNi0.5Co0.2Mn0.3O2 as cathode for long-life and safe Li-ion battery. Journal of Power Sources 265 (2014)174-181 (IF=6.217)
[12]Peiyu Hou, Xiaoqing Wang, Dawei Song*, Xixi Shi, Jian Guo, Jun Zhang, Lianqi Zhang*. Design, preparation and properties of core-shelled Li{[NiyCo1-2yMny](1-x)}core{[Ni1/2Mn1/2]x}shellO2 (0 £x£0.3, 6y+3x-6xy=2) high-performance cathode for Li-ion battery. Electrochimica Acta 133 (2014) 589-596 (IF=4.504)
[13]Yantao Zhang, Enlou Zhou, Dawei Song*, Xixi Shi, Xiaoqing Wang, Lianqi Zhang*, Jian Guo. Effects on electrochemical performances for host material caused by structure change of modifying material. Physical Chemistry Chemical Physics 16 (2014)17792-17798 (IF=4.493)
[14]Dawei Song, Xiaoqing Wang, Hehe Nie, Hua Shi, Dongge Wang, Fenxia Guo, Xixi Shi, Lianqi Zhang*. Heat treatment of LiCoO2 recovered from cathode scraps with solvent method. Journal of Power Sources 249 (2014) 137-141 (IF=6.217)
[15]Peiyu Hou, Xiaoqing Wang, Dongge Wang, Dawei Song*, Xixi Shi, Lianqi Zhang*, Jian Guo, Jun Zhang. A novel core-concentration gradient-shelled LiNi0.5Co0.2Mn0.3O2 as high-performance cathode for lithium-ion batteries. RSC advances, 4 (2014)15923-15929 (IF=3.84)
[16]Hua Shi, Xiaoqing Wang, Peiyu Hou, Enlou Zhou, Jian Guo, Jun Zhang, Dongge Wang, Fenxia Guo, Dawei Song, Xixi Shi, Lianqi Zhang*. Core–shell structured Li[(Ni0.8Co0.1Mn0.1)0.7(Ni0.45Co0.1Mn0.45)0.3]O2 cathode material for high-energy lithium ion batteries. Journal of Alloys and Compounds 587 (2014) 710-716 (IF=2.999)
[17]Dawei Song, Enlou Zhou, Peiyu Hou, Fenxia Guo, Lianqi Zhang*. Recovery and heat treatment of the Li(Ni1/3Co1/3Mn1/3)O2 cathode scrap material for lithium ion battery. Journal of Power Sources 232 (2013) 348-352 (IF=6.217)
[18]Peiyu Hou, Jian Guo, Dawei Song, Jun Zhang, Enlou Zhou, Lianqi Zhang*. A Novel Double-shelled LiNi0.5Co0.2Mn0.3O2 Cathode Material for Li-ion Batteries . Chemistry Letters 41 (2013) 1712-1714 (IF=1.23)