时志强教授

发布时间:2016-12-05文章来源:材料科学与工程学院浏览:6285

1.个人简况

职称:教授、博士生导师;

人才计划: 天津市“131人才工程”第二层次人才;

天津工业大学“青年拔尖”人才。

电子信箱:shizhiqiang@tiangong.edu.cn;

电话: 022-83955816

时志强,男,19788月出生,天津工业大学材料学院无机非金属材料工程专业教师,系主任;自2001开始持续进行绿色储能炭材料方面的研究工作,专注于超级电容器、锂(钠)离子电池、锂硫电池电极材料与器件的基础研究与产业化技术开发。目前,作为项目负责人承担国家高技术研究发展863计划项目2项,国家自然科学基金面上项目、国家自然科学基金青年基金、天津市支撑计划重点项目、天津市863计划转化项目、天津市应用基础与前沿技术一般项目和天津市优秀科技特派员项目各1项。承担企业合作与产业化转化项目多项。在Journal of Power SourcesElectrochimica ActaJournal of Electroanalytical ChemistrySolid State Ionics等国际主流能源期刊发表高水平论文40余篇;合作发表SCIEI论文10余篇。

2.教育背景及工作经历

1997.9-2001.7 河北理工学院化工系 获学士学位

2001.9-2004.3 天津大学化工学院 获硕士学位

2004.3-2007.6 天津大学化工学院 获博士学位

2007.6-2010.6 天津大学材料/化工学院 博士后

2010.5-2010.6 天津大学化工学院 副教授

2010.6---2015.12天津工业大学材料学院 副教授(博导)

2016.1---今  天津工业大学材料学院 教授(博导)

3.学术兼职

天津市先进纤维与储能技术重点实验室副主任

中国电工技术学会超级电容器与储能技术专业委员会秘书长委员

中国超级电容器产业联盟副秘书长

中国化学会电化学委员会委员

中国电子学会化学与物理电源技术委员会委员

中车宁波新能源科技有限公司专家委员会委员

国家自然科学基金、天津市、广西、黑龙江省自然科学基金涵评专家

4. 课题组简介及研究方向

20106月在天津工业大学材料学院组建“先进炭材料与能源器件”课题组,定位于专心研究超级电容器、锂离子电池、钠离子电池等绿色储能器件的基础研究与产业化研究;研究范围涉及电极材料、功能电解液、电解质材料、电极制备技术及器件工艺研究,以追求基础研究与产业化技术的统一与融合为研究目标。

主要研究方向:

(1) 微米/纳米球形与纤维炭材料;

(2) 超级电容器电极材料与器件;

(3) /钠离子电池电极材料与器件;

(4) 锂硫电池电极材料与器件;

(5) 超级电容器器件的产业化技术开发.

5.讲授课程:

   《电化学储能材料与器件》《锂离子电池设计与实践》大型综合实验

6.承担科研项目情况

 1.山东欧铂新材料有限公司校企合作横向课题——超级电容活性炭产业制备及电容性能检测与评价. (2016.4-2019.4,课题经 

    费200万元,在研).

 2.石墨烯超级电容器的设计与应用研究——广东某研究院(2017.1-2019.12,课题经费105万元;立项).

3. 国家高技术研究发展863计划项目(项目编号:2013AA050905)——高比能、低成本的新型超级电容器关键技术研究. (2013.1-2015.12,子课题经费57万元,完成).

4. 国家高技术研究发展863计划项目(项目编号: 2011AA11A232)——锂离子电容器产业化技术开发. (2011-2013,子课题经费44.5万元,副组长,完成).

5. 2013 年天津市科技支撑计划重点项目(项目编号: 15ZCZDGX00270)——超级电容器专用活性炭的低成本制备与器件应用. (2014-2016,项目经费:50万,组长)

6. 国家自然科学基金面上项目(项目编号: 51172160)——基于双炭电极的“离子插层”电池/电容器体系基础研究. (2012.1-2015.12, 27万,第二负责人,完成).

7. 国家自然科学基金项目(项目编号: 50902102)——“双离子插层”电容器的设计及电化学性能研究. (2010.1-2012.12, 20万,负责人,完成).

8. 2014年天津市人才引进与科技合作计划863成果转化项目(项目编号: 14RCHZGX00859),——锂离子电容器产业化技术开发. (2014.9-2017.3, 30万,技术负责人,在研).

9. 天津市应用基础与前沿技术研究计划一般项目(项目编号: 11JCYBJC07500)——钛酸锂-纳米炭复合电极材料的制备及在LIC中的应用.2011.4-2014.3, 10万,负责人,完成).

10. 2014年天津市特派员项目(项目编号: 14JCTPJC00484)——锂离子电容器的基础研究. 2014.9-2015.8, 5万,负责人).

11. 校企横向合作课题——新型锂/氟化炭一次电池技术开发(2015.10-2016.1220万元。

12. 校企横向合作课题——锂/硫电池用石墨烯膜电极的研制(2014.10-2015.126万元。

7.发表论文

[1] Xuewen Yu, Dianbo Ruan, Changcheng Wu, Jing Wang, Zhiqiang Shi*. Spiro-(1, 1′)-bipyrrolidinium tetrafluoroborate salt as high voltage electrolyte for Electric double layer capacitors.Journal of Power Sources. 2014. 265:309-316. (IF: 6.217)

[2] Yan Guo, Zhi-qiang Shi*, Ming-ming Chen, Cheng-yang Wang*. Hierarchical porous carbon derived from sulfonated pitch for electrical double layer capacitors. Journal of Power Sources. 2014, 252:235-243. (IF: 6.217)

[3] Juan Jin, Baojun Yu, Zhiqiang Shi*, Chengyang Wang*, Chuan-bin Chong. Lignin-based electrospun carbon nanofibrous webs as free-standing and binder-free electrodes for Sodium Ion Batteries. Journal of Power Sources. 2014, 272:800-807. (IF: 6.217)

[4] Zhi-qiang Shi*, Jin Zhang, Jing Wang, Jingli Shi, Chengyang Wang. Effect of the capacity design of activated carbon cathode on the electrochemical performance of lithium-ion capacitors. Electrochimica Acta. 2015.153: 476-483. (IF: 4.504, Top:2)

[5] Zhiqiang Shi*, Xuewen Yu, Jing Wang, Hairan Hu, Changcheng Wu. Excellent low temperature performance electrolyte of spiro-(1,1′)-bipyrrolidinium tetrafluoroborate by tunable mixtures solvents for electric double layer capacitor. Electrochimica Acta. 2015. 174: 215-220. (IF: 4.504, Top:2)

[6] Xuewen Yu, Jing Wang, Chenglin Wang, Zhiqiang Shi*. A novel electrolyte used in high working voltage application for electrical double-layer capacitor using spiro-(1,1′)-bipyrrolidinium tetrafluoroborate in mixtures solvents. Electrochimica Acta. 2015, 182:1166–1174. (IF: 4.504)

[7] Jin Zhang, Hongzhao Wu, Jing Wang, Jingli Shi, Zhiqiang Shi*. Pre-lithiation design and lithium ion intercalation plateau utilization of mesocarbon microbeads anode for lithium-ion capacitors. Electrochimica Acta. 2015, 182: 156-162. (IF: 4.504)

[8] Jin Zhang , Zhiqiang Shi*, Cheng-yang Wang*. Effect of pre-lithiation degrees of mesocarbon microbeads anode on the electrochemical performance of lithium-ion capacitors. Electrochimica Acta.2014, 125:22-28.(IF: 4.086)

[9] Jing Wang, Yihuan Wu, Zhiqiang Shi*, Changcheng Wu. Mesoporous carbon with large pore volume and high surface area prepared by a co-assembling route for Lithium-Sulfur Batteries. Electrochimica Acta. 2014.144:307-314. (IF: 4.086)

[10] Juan Jin, Zhiqiang Shi*, Chengyang Wang*. Electrochemical Performance of Electrospun carbon nanofibers as free-standing and binder-free anodes for Sodium-Ion and Lithium-Ion Batteries. Electrochimica Acta. 2014.141:302-310. (IF: 4.086)

[11] Jin Zhang, Zhiqiang Shi*, Jing Wang, Jingli Shi. Composite of mesocarbon microbeads/hard carbon as anode material for lithium ion capacitor with high electrochemical performance. Journal of Electroanalytical Chemistry. 2015,747:20-28. (IF: 3.235, Top: 3)

[12] Ting-ting Qin, Zhi-qiang Shi*, Ming-wei Li, Cheng-yang Wang*. Effect of reduction heat treatment in H2 atmosphere on structure and electrochemical properties of activated carbon. J Solid State Electrochem.2015, 19 (5): 1437-1446. (IF: 2.509, Top: 2)

[13] Xuan Wu, Zhi-qiang Shi*, Cheng-yang Wang*, Juan Jin. Nanostructured SiO2/C composites prepared via electrospinning and their electrochemical properties for lithium ion batteries. Journal of Electroanalytical Chemistry. 2015,746:62-67. (IF: 3.235, Top: 3)

[14] Yajin Hao, Zhiqiang Shi, Jing Wang*, Qiang Xu*. One step production of in-situ nitrogen doped mesoporous carbon confined sulfur for lithium-sulfur batteries. RSC Advances.2015, 5: 31629-31636. (IF: 2.936).

[15] He-liang Wang, Zhi-qiang Shi*, Juan Jin, Cheng-yang Wang*. Properties and Sodium insertion behavior of Phenolic Resin-based hard carbon microspheres obtained by a hydrothermal method. Journal of Electroanalytical Chemistry. 2015, 755: 87-91. (IF: 3.235)

[16] Zhiqiang Shi*, Chuan-bin Chong, Jing Wang, Chengyang Wang, Xuewen Yu. Electrospun Pitch/Polyacrylonitrile composite carbon nanofibers as high performance anodes for lithium-ion batteries. Materials Letters. 2015, 159: 341-344. (IF: 2.687, Top: 2)

[17] Juan Jin, Zhi-qiang Shi*, Cheng-yang Wang*.The structure and electrochemical properties of carbonized polyacrylonitrile microspheres. Solid State Ionics.2014, 261:5-10. (IF: 2.751, Top: 2)

[18] Jin Zhang, Xifeng Liu, Jing Wang, Jingli Shi, Zhiqiang Shi*. Different types of pre-lithiated hard carbon as negative electrode material for lithium-ion capacitors. Electrochimica Acta. 2015. 187:134-142. (IF: 4.504, Top: 1)

[19] Man Zhao, Jing Wang*, Chuanbin Chong, Xuewen Yu, Lili Wang, Zhiqiang Shi*.

An electrospun lignin/polyacrylonitrile nonwoven composite separator with high porosity and thermal stability for lithium-ion batteries. RSC Advances. 2015, 5: 101115–101120. (IF: 2.936, Top: 3)

[20] Lili Wang, Zhiqiang Shi*, Chuanbin Chong, Jing Wang, Jie Pana*, Phenolic formaldehyde resin/graphene composites as lithium-ion batteries anode. Materials Letters. 2016, 170: 217-220. (IF: 2.687, Top: 2)

[21] Fang Cheng, Xuewen Yu, Zhiqiang Shi*, Changcheng Wu*. A novel supercapacitor electrolyte of spiro-(1,1')-bipyrolidinium tetrafluoroborate in acetonitrile/dibutyl carbonate mixed solvents using for ultra-low temperature application. Electrochimica Acta. 2016, 200: 106-114. (IF: 4.504)

[22] Qingyin Zhang*, Peng Xie, Xin Wang, Xuewen Yu, Zhiqiang Shi*, Shihuai Zhao. Thermodynamic and transport properties of Spiro-(1,1')-bipyrrolidinium tetrafluoroborate and acetonitrile mixtures: A molecular dynamics study. Chinese Physics B. 2016. 25(6):066102-8(IF:1.321, 四区)

[23] Miaolun Jiao, Kunlin Liu, Zhiqiang Shi*, Chengyang Wang*. SiO2/carbon composite microspheres with hollow core-shell structure as high stability electrode for lithium ion batteries. ChemElectroChem. 2017, 4(3):542-549. (IF: 4.446, Top: 2)

[24] Zhi-qiang Shi*, Guoqiang Jin, Jing Wang, Jin Zhang. Free-standing, welded mesoporous carbon nanofibers as anode for high-rate performance Li-ion batteries. Journal of Electroanalytical Chemistry.2017, 795:26-31. (IF: 3.235, Top: 3)

[25] Miaolun Jiao, Qi Jie, Zhiqiang Shi*, Chengyang Wang*. Three-dimensional Si/hard-carbon/graphene network as high-performance anode material for lithium-ion batteries. Journal of Materials Science. 2018 (3) :2149-2160.(IF: 2.993, Top: 2)

[26] Jin Zhang, Zhi-qiang Shi*, Jing Wang, Jing-li Shi. Mesoporous carbon material as cathode for high performance lithium-ion capacitor. Chinese Chemical Letters.2018. 29 (4): 620–623. (IF:2.631, Top: 4)

[27] Jin Zhang, Jin Wang, Zhi-qiang Shi*, Zhiwei Xu. Electrochemical behavior of lithium ion capacitor under low temperature. Journal of Electroanalytical Chemistry. 2018, 817:195-201. (IF: 3.235, Top: 3) (10.1016/j.jelechem.2018.04.014;15 May 2018)

[28] Guoxia Lv, Jing Wang, Zhiqiang Shi, Liping Fan. Intercalation and delamination of two-dimensional MXene (Ti3C2Tx) and aplication in sodium-ion batteries. Materials Letters,2018,219:45-50.(IF: 2.687, Top: 2)

[29] Yongfang Niu, Jing Wang, Jin Zhang, Zhiqiang Shi*. Graphene quantum dots as a novel conductive additive to improve the capacitive performance for supercapacitors. Journal of Electroanalytical Chemistry. 2018, 828:1-10. (IF: 3.235,Top: 3)

[30] Wang Jing, Yan Lei, Ren Qingjuan, Fan Linlin, Zhang Fuming, Zhi-qiang Shi*. Facile hydrothermal treatment route of reed straw-derived hard carbon for high performance sodium ion battery. Electrochimica Acta. 2018, 291:188-196. (IF: 5.116, Top: 1)

[31] Pei Wang, Liping Fan, Lei Yan, Zhiqiang Shi. Low-cost water caltrop shell-derived hard carbons with high initial coulombic efficiency for sodium-ion battery anodes. Journal of Alloys and Compounds. 2019, 775: 1028-1035. (IF: 3.779, Top: 2)


8.科研与教学获奖

  1. 中国电工技术学会科学技术奖二等奖——高能量密度新型锂离子超级电容器的研制

 (排名第二);

  2. 获得第32届全国化学与物理电源学术年会青年论坛奖;201710月,武汉。

 中国电子学会化学与物理电源技术分会;

  3. 2016年度桑麻奖教金获得者;

  4. 获得第二届“我最喜爱研究生导师”称号;

  5. 时志强、马昌、高海燕、赵永男、张桂芳、梁小平、张亚彬、聂丽芳、王静. 2017年校级教学成果二等奖——新时代下专业—学科—社会资源协同与融合促进无机非专业建设的探索与实践.

  6. 2017年度天津工业大学“优秀教学质量奖”一等奖.

  7. 赵永男、时志强、张桂芳、张亚彬、梁小平.天津工业大学2012年校级教学成果三等奖. 培养“实践与创新能力”的无机非金属材料工程专业多层次实践教学体系的构建。

9.毕业学生及就业去向

左飞龙:男,2010级硕士,单位:宁波车新能源科技有限公司

吴奕环:女,2011级硕士,单位:宁波车新能源科技有限公司

于学文:女,2011博士生,单位:宁波车新能源科技有限公司

进:男,2011博士生,单位:天津捷威动力工业有限公司

安矫清:男,2012级硕士,单位:韩国三星视界(天津)有限公司

郝亚晋:女,2012级硕士,单位:中石油廊坊管道局

种传宾:男,2013级硕士,单位:安徽国轩动力电池有限公司

方:男,2013级硕士,单位:云南大学卢文教授课题组读博

曼:女,2013级硕士,单位:天津市金新环保检测有限公司

杨春媛:女,2014级硕士生,单位:深圳比克电池有限公司

章雄峰:男,2014级硕士生,单位:湖南桑顿新能源科技有限公司

靳国强:男,2014级硕士生,单位北京普莱德新能源电池科技有限公司

牛永芳:女,2015级硕士生,单位:中科院兰州化学物理研究所读博

吕国霞:女,2015级硕士生,单位:中科院兰州化学物理研究所读博

吴宝军:男,2015级硕士生,单位:北京颐源新能源科技有限公司

佩:女,2016级硕士生,单位:天津捷威动力工业有限公司

磊:男,2016级硕士生,单位:准备考博中

吴俊达:男,2016级硕士生,单位:准备考博中


20178课题组全家福



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