职  称:教授
研究方向:锂离子电池
办公电话:0431-85099511
办公地点:长春市人民大街5268号逸夫科技馆
电子邮件:xiehm136@nenu.edu.cn

个人简历

谢海明,男,汉族,籍贯内蒙古四子王旗,中共党员,教授,博士生导师;十三五国家重点研发计划新能源车专家组专家;动力电池国家地方联合工程实验室, 主任;物理化学学科带头人PI;化学学院教授委员会委员;吉林省长白山学者,教育部新世纪优秀人才,吉林省首批学科领军教授,首批东师仿吾青年学者,首批东师学者,全国优秀博士毕业学位论文提名奖,获得2018年吉林省双创十大创新尖兵,2014年吉林省战略性新兴产业先进集体,2011年长春市五一劳动奖状,2011年吉林省最佳经济技术创新能手称号。多年来潜心研究锂离子电池、锂硫电池、锂空电池以及各类电池新型材料,包括磷酸亚铁锂材料、磷酸钒锂、钛酸锂、耐高温隔膜、不燃电解液、磷酸铁锂动力电池、超低温锂离子动力电池等;近年来同加拿大魁北克水电研究院、法国巴黎第六大学等科学家合作开发高安全高能量密度的全固态锂电池,在锂离子动力电池及其材料领域具有较深的研究;多年来一直以产学研方式同企业紧密合作,先后建立了“辽源市鸿图锂电隔膜科技股份有限公司”,生产锂离子电池隔膜,“吉林中聚新能源股份有限公司”生产动力电池,“营口航盛科技实业有限公司”生产磷酸亚铁锂材料, “长春劲能科技集团股份有限公司”生产超低温动力电池和全固态锂电池,带动了我国新能源车的快速发展。近年来发表论文五十余篇、申请专利二十余项,申请科研项目经费三千余万元。 1994年至1998年,内蒙古民族大学,本科学习; 1998年至2002年,内蒙古民族大学留校任教; 2002年至2008年,东北师范大学化学学院,硕博连读; 2007年-至今, 东北师范大学留校任教; 2008年被破格评为副教授; 2010年被破格评为正教授; 2016年被评为三级教授

社会兼职

  • 动力电池国家地方联合工程实验室, 主任
  • 长春劲能科技集团股份有限公司 技术总工程师
  • 辽源鸿图锂电隔膜股份有限公司 研究院院长
  • 高寒地区新能源车产业联盟 专家组组长

获奖情况

  • (1)获得吉林省双创十大创新尖兵,2018年,谢海明,吉林省发改委、工信厅、教育厅、科技厅;
    (2)吉林省国家型高端人才,“长白山学者”,谢海明,吉林省教育厅,2015年;
    (3)吉林省战略新型产业先进集体,谢海明 ,王荣顺,2014年8月,吉林省公务员局,吉林省发展和改革委员会;
    (4)获得教育部“新世纪优秀人才”,谢海明,2012年,中华人民共和国教育部;
    (5)博士论文“锂离子电池及其电极材料的研究”,谢海明,获得2010年全国优秀博士毕业论文提名奖,中华人民共 和国教育部;
    (6)吉林省首批学科领军教授,谢海明,2013年,吉林省教育厅;
    (7)锂离子电池磷酸亚铁锂材料的研制,吉林省科学技术进步一等奖,2008年10月,获奖人,王荣顺,谢海明等。
    (8)2008年被东北师范大学评为首批“东师学者”青年学术骨干。 “东师学者”是立足于东北师范大学中青年学术骨干队伍建设,培养具有一定创新能力和发展潜力的青年拔尖人才,储备国家、省部级各类人才计划的后备力量。
    (9)长春市五一劳动奖状,谢海明、王荣顺、孙立群等,2011年,长春市总工会;
    (10)获得“吉林省最佳经济技术创新能手”称号,谢海明,2011年,吉林省总工会;
    (11)第六届“挑战杯”翁福中国大学生创业计划竞赛,2008年11月,国家级银奖。优秀指导教师,谢海明。主办单位中华人民共和国教育部,中国科协,共青团中央,全国学联。
    (12)第四届“挑战杯”万易吉林省大学生创业计划竞赛,2008年5月,省级金奖。优秀指导教师,谢海明。主办单位:吉林省教育厅等。
    (13)磷酸亚铁锂材料及其动力电池的产业化,第二届东北亚博览会最具投资潜力奖,2006年09月,主办单位:吉林省省政府;团体奖。
    (14)东北师范大学首批“仿吾青年学者”,谢海明,2014年-2018年,东北师范大学

教学信息 (数据来源:教务处)

  • 计算机在化学中的应用

科研信息

  • 近年来代表性论文:
    2018年发表:
    (1)Supramolecular Assembly of Photosystem II and Adenosine Triphosphate Synthase in Artificially Designed Honeycomb Multilayers for Photophosphorylation,Yue Li, Jinbo Fei, Guangle Li, Haiming Xie,* Yang Yang,* Jieling Li, Youqian Xu, Bingbing Sun, Jiarui Xia, Xueqi Fu, and Junbai Li*, ACS Nano ,2018, 12, 1455−1461;IF=13.94
    (2)3D Foam-Like Composites of Mo2C Nanorods Coated by N‑Doped Carbon: A Novel Self-Standing and Binder-Free O2 Electrode for Li−O2 Batteries, Guiru Sun, Qin Zhao, Tong Wu, Wei Lu, Mei Bao, Liqun Sun, Haiming Xie,*  and Jia Liu,* ACS Applied Materials & Interfaces, 2018, 10, 6327−6335; IF = 8.097
    (3)Role of Perfluoropolyether-based Electrolytes in Lithium Metal Batteries: Implication for Suppressed Al Current Collector Corrosion and the Stability of Li Metal/Electrolytes Interfaces,Cong Lina a,b; Liu Jia a,b; Michel ARMAND,c ; Alain Mauger ,c; Christian M JULIEN,c ; Haiming Xie*,a,b; Sun Liqun a,b. Journal of Power Sources ,380 (2018) 115–125; IF=6.945
    (4)V-insertion in Li(Fe,Mn)PO4 T. Wua, J. Liua, L. Suna, L. Conga, H. Xie*a, A. Abdel-Ghanyb, A. Maugerc, C.M. Julien,c , Journal of Power Sources ,383 (2018) 133-143;IF=6.945
    (5)Hierarchical and Highly Stable Conductive Network Cathode for Ultraflexible Li−S Batteries;Xuesong Wu,Zhao Wang, Chao Qin, Xinlong Wang,*  Haiming Xie,* Zhenhui Kang,*and Zhongmin Su;ACS Appl. Energy Mater;DOI: 10.1021/acsaem.8b00377;IF=8.097
    (6)Binary Mixtures of Highly Concentrated Tetraglyme and Hydrofluoroether as a Stable and Nonflammable Electrolyte for Li–O2 Batteries, Qin Zhao, Yuhang Zhang, Guiru Sun, Lina Cong, Liqun Sun, Haiming Xie*, and Jia Liu*. ACS Applied Materials & Interfaces, 2018, 10 (31), 26312–26319; IF=8.097;
    (7)Self-assembled layer-by-layer partially reduced graphene oxide-sulfur composites as lithium-sulfur battery cathode. Cen Yao, Yu Sun, Kaisen Zhao, Tong Wu, Alain Mauger, Christian. M. Julien, Lina Cong, Jia Liu, Haiming Xie*, Liqun Sun*, RSC Advances, 2018, 8, 3443-3458; IF=2.936;
    (8) Porous Molybdenum Carbide Nanorods as Novel “Bifunctional” Cathode Material for Li‐S Batteries. Zhao Wang, Jia Liu, Liqun Sun, Yuhang Zhang, Qiang Fu, Haiming Xie*, Hao Sun, Chemistry – A European Journal, 2018, 24, 14154-14161; IF=5.16;
    
    2017年发表:
    (1) Advances in lithium—sulfur batteries,X. Zhanga, H.M Xieb,*, C.-S. Kimc, K. Zaghibc, A. Maugerd, C.M. Juliend,* Materials Science and Engineering R; 2017, 12, 11–29;IF=29.28
    (2) Hierarchical Structures based on Two-Dimensional Nanomaterials for Rechargeable Lithium Batteries, LinaCong, HaimingXie*, Jinghong Li*, Advanced Energy Materials; 2017, 1601906, IF=21.875
    (3) Solution-processed black phosphorus/PCBM hybrid heterojunctions for solar cells; Linyi Bai,a Liqun Sun,b Yang Wang,a Zhizhou Liu,a Qiang Gao,a Huijing Xiang,a Ha4 nanospheres as highly activecatalysts for Li–O2 batteries: understanding the electrocatalytic mechanism, Qin Zhao,a CaixiaWu,b Lina Cong,a Yuhang Zhang,a Guiru Sun, Haiming Xie,*a Liqun Sun*a and Jia Liu, J. Mater. Chem. A , 2017, 5, 544-553, IF=9.931 
      (5)Co9S8 nanoparticles anchoring on nitrogen and sulfur dual-doped carbon nanosheets as highly efficient bifunctional electrocatalyst for oxygen evolution and reduction reactions,Can Wu a, Yuhang Zhang b, Duo Dong a, Haiming Xie b,*, Jinghong Li a * Nanoscale, 2017, 9, 12432-12440;IF=7.367
      (6)A structure-property interplay between the width and height of cages and the static third order nonlinear optical responses for fullerenes: applying gamma density analysis,Li Wang a, Jin-Ting Ye a, He Chen a, Zhen-Zhen Chen a, Yong-Qing Qiu *ab and Hai-Ming Xie *ab Phys. Chem. Chem. Phys., 2017, 19, 2322-2331;IF=4.123
    (7)Spirooxazine molecular switches with nonlinear optical responses as selective cation sensors,Jin-Ting Yea, Li Wanga, Hong-Qi
    
    2016年发表:
    (1) Metal–Organic Framework with Aromatic Rings Tentacles: High Sulfur Storage in Li–S Batteries and Efficient Benzene Homologues Distinction, Meng-Ting Li, Yu Sun, Kai-Sen Zhao, Zhao Wang, Xin-Long Wang*, Zhong-Minpolyanions doped LiNi1/3Co1/3Mn1/3O2: An ultrafast-rate, long-life and high-voltage cathode material for Li-ion rechargeable batteries, Lina Cong a,b, Qin Zhao a,b, Zhao Wang a,b, YuhangZhang a,b, Xinglong Wu a,b, Jingping Zhanga, Rongshun Wanga,b, HaimingXie a,b,*,LiqunSuna,b,*, Electrochimica Acta 201 (2016) 8–19, IF=4.803
    
    
    (3)The effect of heterocyclic p bridges on second order nonlinear optical properties of compounds formed between ferrocenyl and corannulenyl, He chen ,Li Wang,Wenyong Wang,Yongqing Qiu*,Haiming Xie*, RSC Advances, 2016,6, 97063-97069, IF=3.289;
     
       (4) Electrospinning of Nanofibers for Energy Applications,Guiru Sun, Liqun Sun, Haiming Xie * and Jia Liu*, Nanomaterials, 2016, 6(7): 129;IF=3.553;
    
    (5)Fabrication of CNTs/MnO2 composite as a wrapping layer for surface modification of Cr doped LiNi0.5Mn¬1.5O4 for lithium ion batteries,Yu-Hang Zhang, Qin Zhao, Li-Na Cgh performance 5 V LiNi0.5Mn1.5O4 spinel cathode materials synthesized by an improved solid-state method,Zhi-Gang Gao, KaiSun,Li-Na Cong, Yu-Hang Zhang, Qin zhao, Rong-Shun Wang, Hai-Ming Xie*, Li-Qunct of heterocyclic Pi bridges on second order nonlinear optical properties of compounds formed between ferrocenyl and corannulenyl,He Chena, Li Wanga, Wen-Yong Wanga, Yong-Qingptical Responses and Concave-Convex Interactions of Size-Selective Fullerenes/Corannulene Recognition Pairs: The Effect of Fullerene Size,Li Wanga, Wen-Yong Wanga, Rong-Lin Zhongb, Yong-Qing Qiu*ab, and Hai-Ming Xie*ab J. Phys. Chem. C, 2016, 120 (45), 26034–26043; IF=4.5359;
    
    (9)Second-Order Nonlinear Optical Properties of Carboranylated Square-Planar Pt(II) Zwitterionic Complexes: One-/Two-Dimensional Difference and Substituent Effect,Hong-Qiang Wang†, Li Wang†, Rong-Rong Li†, Jin-Ting Ye†, Zhen-Zhen Chen†, He Chen†,15年发表:
    (1)Controlled synthesis of mesoporous hollow SnO2 nanococoons with enhanced lithium storage capability, J. Mater. Chem. A, 2015, 3, 22021–22025, Lu Li, Bo Guan, Lingyu Zhang, Zhongmin Su, HaimingXie* and Chungang Wang*(SCI  7.44, 2015)
    
    (2) Black Phosphorus Quantum Dots, Angew. Chem. Int. Ed. 2015, 54, 3653 –3657, Xiao Zhang, HaimingXie, Zhengdong Liu, Chaoliang Tan, Zhimin Luo, Hai Li, Jiadan Lin, Liqun Sun, Wei Chen, Zhichuan Xu, LinghaiXie, Wei Huang, and Hua Zhang*(SCI  11.261, 2015)
    (3)Enhancement of electrochemical performance of LiNi1/3Co1/3Mn1/3O2by surface modification with MnO2, Journal of Alloys and Compounds 651 (2015) 12-18, Xin Guo, Li-Na Cong, Qin Zhao, Ling-Hua Tai, Xing-Long Wu, Jing-Ping Zhang, Rong-Shun Wang, Hai-Ming Xie, *, Li-Qun Sun, ** (SCI 2.999, 2015)
    (4) High performance 5V LiNi0.5Mn1.5O4 spinel cathode materialssynthesized by an improved solid-state method, Journal of Alloys and Compounds ,654 (2016) 257-263, Zhi-Gang Gao, Kai Sun, Li-Na Cong, Yu-Hang Zhang, Qin zhao, Rong-Shun Wang, Hai-Ming Xie*, Li-Qun Sun**, Zhong-Min Su**(SCI 2.999, 2015)
    (5)A study of the electrochemical behavior at low temperature of the Li3V2(PO4)3 cathode material for Li-ion batteries, New J. Chem., 2015,39, 9617-9626, Ling-Hua Tai, Qin Zhao, Li-Qun Sun, Li-Na Cong,Xing-Long Wu,Jing-Ping Zhang, Rong-Shun Wang, Hai-Ming Xie* and Xiao-Hong Chen* (SCI 3.086, 2015)
    
    2014年以前:
    (1)Optimized LiFePO4/Polyacene Cathode Material for Lithium Ion Batteries,Advanced Materials, 2006,18, 2609-2613, Hai-Ming Xie, Rong-Shun Wang,* Jie-Rong Ying, Ling-Yun Zhang, Abraham F. Jalbout, Hai-Ying Yu, Gui-Ling Yang, Xiu-Mei Pan, and Zhong-Min Su* (SCI  15.409, 2013)
     (2) Electrochemical Activity of Black Phosphorus as an Anode Material for Lithium-Ion Batteries, J. Phys. Chem. C , 2012, 116, 14772−14779, Li-Qun Sun, Ming-Juan Li, Kai Sun,Shi-Hua Yu,Rong-Shun Wang,*and Hai-Ming Xie*;(SCI4.81, 2012)
     (3) Multiporous MnCo2O4 Microspheres as an Efficient Bifunctional Catalyst  for Nonaqueous  Li−O2 Batteries, J. Phys. Chem. C , 2013,117,25890-25897, Shunchao Ma,Liqun Sun, Lina Cong,Xuguang Gao, Cen Yao, Xin Guo, Linghua Tai,Peng Mei, Yanping Zeng, Haiming Xie,*,and Rongshun Wang*(SCI4.81, 2012)
     (4) The Optimum Nanomicro Structure of LiFePO4/Ortho-Rich Polyacene Composites, J. Phys. Chem. C,114, 3297–3303,2010, Li.Qun Sun,  Rui.Hui. Cui, Hai.Ming Xie* , Rong.Shun Wang*;(SCI 4.52, 2010)
    (5) Enhancement of electrochemical performance ofLi[Li0.2Mn0.54Ni0.13Co0.13]O2by surface modification with Li4Ti5O12, Electrochimica Acta, 115 (2014) 399– 406, Li-Na Cong, Xu-Guang Gao, Shun-Chao Ma, Xin Guo, Yan-Ping Zeng, Ling-Hua Tai,Rong-Shun Wang, Hai-Ming Xie*, Li-Qun Sun*;(SCI3.78, 2013)
    (6)Effect of cationic and anionic substitutions on the electrochemical properties of  LiNi0.5Mn1.5O4 spinel cathode materials, Yan-Ping Zeng, Xing-long Wu, Peng Mei, Li-Na Cong, Cen Yao, Rong-Shun Wang, Hai-Ming Xie*, Li-Qun Sun*,Electrochimica Acta 138 (2014) 493–500;(SCI3.78, 2013)
    (7)LiFePO4 as an Optimum Power Cell Material, J. Power Sources, 189, 1, 522-526 , 2009,Li.Qun. Sun, Rui.Hui. Cui, Rong.Shun. Wang*, Hai.Ming. Xie *, (SCI 3.8, 2009)
    (8)Surfactant-Assisted Hydrothermal Growth of Single-Crystalline Ultrahigh-Aspect-Ratio Vanadium Oxide Nanobelts,Crystal Growth & Design,2007, VOL.7,NO.9, 1893-1897,Shufeng Shi, Minhua Cao,*  Xiaoyan He, and Haiming Xie* (SCI 4.05, 2007)
    (9)Elecunds: A computational study, PHYS CHEM CHEM PHYS,2012,14,47,16476-16485, Shu-wei Tang, Feng-di Wang, Nan-nan Zhang, Ying-fei Chang*, Hao Sun, Jing-ping Zhang, Hai-ming Xie*,Yong-qing Qiu, Rong-shun Wang; (SCI3.83, 2012)
    (10)High-rate characteristics of novel anode Li4Ti5O12/polyacene materials for Li-ion secondary batteries, Electrochimica Acta, 53, 2008, 4200–4204, Haiying Yu, Xianfa Zhang, A.F. Jalbout, Xuedong Yan, Xiumei Pan, Haiming Xie,* and Rongshun Wang*(SCI 2.85, 2008)

其它信息

    已申请专利情况: (1)一种卤代聚合物、聚合物薄膜及其制备方法和应用,申请号:ZL201810469017.X,发明人:谢海明,丛丽娜,孙立群;中国发明专利,申请人,东北师范大学; (2)一种全固态聚合物电解质膜及其制备方法,申请号:201811620598.9,谢海明,魏夺,王钊,孙立群,丛丽娜,刘佳;中国发明专利,申请人,东北师范大学; (3)一种全固态电解质及其制备方法和一种锂电池;申请号:201910172232.8,谢海明,张博皓,孙立群,刘佳,丛丽娜;中国发明专利,申请人,东北师范大学; (4)一种高倍率锂离子电池正极配方,申请号:201910215464.7,发明人,谢海明,康书文,王钊,中国发明专利,申请人,东北师范大学; (5)一种高安全聚合物三元锂动力电池的制作方法,申请号:201910215579.6,发明人,谢海明,康书文,王钊,中国发明专利,申请人,东北师范大学; (6)一种碳化钼硫复合材料及其制备方法与应用;申请号:ZL201710944055.1,发明人:谢海明,王钊,孙立群,丛丽娜,中国发明专利,申请人,东北师范大学; (7)N-脂肪酰谷氨酸作为凝胶因子提高锂电池安全性的方法, 申请号:201410113063.8,发明人,谢海明,康书文,王荣顺,中国发明专利,申请人,东北师范大学; (8)一种宽温区不燃的锂离子电池电解液,申请号:201410345733.9,发明人,谢海明,丛丽娜,王钊,王荣顺,中国发明专利,申请人,东北师范大学; (9)一种锂离子电池正极-磷酸盐/聚并苯复合材料的制备方法,专利号:ZL2006100016631.8 ,发明人:王荣顺,谢海明 ,张凌云,中国发明专利。 (10)一种锂离子电池隔膜,专利号,ZL200720173307.7,发明人:张汉鸿,谢海明,张文博,实用新型专利。 (11) 一种提高锂电池加工质量的方法 ,专利号:201010266287.4,发明人:谢海明, 康书文,王荣顺,中国发明专利 (12) 一种模块化锂离子动力电池,专利号:201010266304.4,发明人:谢海明,康书文,王荣顺,中国发明专利 (13) 锂离子电池回收集流体的方法,专利号:201010253873.5,发明人:谢海明,王昭,王荣顺,中国发明专利 (14) 水系锂离子动力电池回收制备磷酸铁锂的方法,专利号:201010253859.5,发明人:谢海明,王昭,王荣顺,中国发明专利 (15)一种新型锂电池外壳,专利号:201020526379.7,发明人:谢海明, 康书文,王荣顺,中国发明专利 ,实用新型专利。 (16)一种锂离子动力电池容量恢复的方法,专利号:201010279486.9发明人:谢海明,王昭,王荣顺,中国发明专利。
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