努丽燕娜,女,上海交通大学研究员。1973年4月出生于新疆省奎屯市。1995年毕业于陕西师范大学化学系化学教育专业;1998年毕业于新疆大学应化所电化学专业,获理学硕士学位;2001年毕业于复旦大学化学系电化学专业,获理学博士学位;2001.6-2003.6在复旦大学材料系作博士后研究;2003年7月到上海交通大学化学化工学院工作,任副教授,硕士导师。2007.3-2008.3由国家留学基金委公派到澳大利亚卧龙岗大学进行化学电源电极材料的研究。主要从事化学电源关键材料的研究。编写《实验电化学》专著,发表SCI学术论文30余篇,中国发明专利授权5项;目前主持的课题:离子液体作为可充镁电池新型电解液的研究(国家自然科学基金,批准号:20603022)。 1、 基本信息 姓名:努丽燕娜 职称:研究员 电话:021-54745887-16 通讯地址:上海市东川路800号上海交通大学化学化工学院B楼414室 2、 教育经历 1998.09-2001.06:复旦大学化学系,物理化学专业,博士 1995.09-1998.06:新疆大学应化所,物理化学专业,硕士 1991.09-1995.06:陕西师范大学化学系,化学教育专业,学士 3、 工作经历 2003-至今:上海交通大学化学化工学院,讲师、副教授、研究员、博士生导师 2015.07-2015.08:Universityof Alicante,访问学者 2014.07-2014.08:TechnicalUniversity of Denmark,访问学者 2007.03-2008.03:Universityof Wollongong,访问学者 2001.07-2003.06:复旦大学材料系,博士后 4、研究方向 可充镁电池 镁硫电池 锂离子电池 5、主要科研项目 主持国家自然科学基金: (1) 21573146:基于金属镁负极和嵌锂正极材料的新型可充镁锂混合离子电池(面上项目,2016. 01-2019.12) (2) 21273147:高性能可充镁电池的构建及其物理化学本质问题的研究(面上项目,2013. 01-2016.12) (3) 20973112:低共熔混合熔盐法合成镁电池新型正极材料MgxMySiO4及其电化学储镁可逆性研究(面上项目,2010.01-2012.12) (4) 20603022:离子液体作为可充镁电池新型电解液的研究(青年基金,2007.01-2009.12) 主持国际合作项目(日本昭荣化学):Novel cathode materials for rechargeable magnesium batteries(2010.04.01-2013.04.30) 6、荣誉奖励 2016-2017年度上海交通大学“烛光奖励计划”二等奖 2006-2007年度上海交通大学“优秀教师”三等奖 2010年度上海交通大学考核优秀奖 2009年度上海交通大学考核优秀奖 7、学术兼职 Nature出版集团学术期刊ScientificReports的编委 8、教学工作 本科生:应用电化学、电化学测试技术及实验、化工热力学、化工专业英语及文献检索 研究生:能源材料测试技术、专业英语、化学工程前沿专题、应用化学前沿专题 9、代表性成果 已主编中文专著1本,参与编写中文专著各1本;发表SCI学术研究论文100余篇,SCI引用超过1000次. 专著: (1) 努丽燕娜,王保峰,《实验电化学》,化学工业出版社,2007年. (2) 参与编写《化学电源测试原理与技术》,主编:杨军,解晶莹,王久林,化学工业出版社,2006年6月. 代表性论文: (1) Hancheng Yuan, Nan Wang, YannaNuLi*, Jun Yang, Jiulin Wang, Hybrid Mg2+/Li+ batterieswith Cu2Se cathode based on displacement reaction, Electrochi. Acta,261 (2018) 503. (2) Nan Wang, Hancheng Yuan, YannaNuLi*, Jun Yang, Jiulin Wang, Prelithiation activates Fe2(MoO4)3cathodefor rechargeable hybrid Mg2+/Li+ batteries, ACSAppl. Mater. Interfaces, 9 (2017) 38455. (3) Linqi Zeng, Nan Wang, Jun Yang,Jiulin Wang, Yanna NuLi*, Application of a sulfur cathode innucleophilic electrolytes for magnesium/sulfur batteries, J. Electrochem. Soc.,164 (2017) A2504.. (4) Nan Wang, Yanna NuLi*,Shuojian Su, Jun Yang, Jiulin Wang, Effects of binders on the electrochemicalperformance of rechargeable magnesium batteries, J. Power Sources, 341 (2017)219. (5) Shuojian Su, Yanna NuLi*,Nan Wang, Dilinuer Yusipu, Jun Yang, JiuLin Wang, Magnesium borohydride-basedelectrolytes containing 1-butyl-1-methylpiperidinium bis(trifluoromethylsulfonyl)imide ionic liquid for rechargeable magnesium batteries, J.Electrochem. Soc., 163 (2016) D682. (6) Shuojian Su, Yanna NuLi*,Zhenguo Huang*, Qi Miao, Jun Yang, Jiulin Wang, A high-performance rechargeableMg2+/Li+ hybrid battery using one-dimensionalmesoporous TiO2(B) nanoflakes as the cathode, ACS Appl. Mater.Interfaces, 8 (2016) 7111. (7) Qi Miao, Yanna NuLi*,Nan Wang, Jun Yang, Jiulin Wang, Shin-ichi Hirano, Effect of Mg2+/Li+mixedelectrolytes on a rechargeable hybrid battery with Li4Ti5O12 cathodeand Mg anode, RSC Adv., 6 (2016) 3231. (8) Shuojian Su, Zhenguo Huang, YannaNuLi*, Felure Tuerxun, Jun Yang, Jiulin Wang, A novel rechargeable batterywith a magnesium anode, a titanium dioxide cathode, and a magnesiumborohydride/tetraglyme electrolyte, Chem. Commun., 51 (2015) 2641. (9) Feilure Tuerxun, YasenAbulizi, Yanna NuLi*, Shuojian Su, Jun Yang, Jiulin Wang, Highconcentration magnesium borohydride/tetraglyme electrolyte for rechargeablemagnesium batteries, J. Power Sources 276 (2015) 255. (10) Peiwen Bian, Yanna NuLi*,Zainapuguli Abudoureyimu, Jun Yang, Jiulin Wang, A novel thiolate-basedelectrolyte system for rechargeable magnesium batteries, Electrochimi. Acta,121 (2014) 258. (11) Yanna NuLi*, Qiang Chen,Weikun Wang*, Ying Wang, Jun Yang, Jiulin Wang, Carbyne Polysulfide as a NovelCathode Material for Rechargeable Magnesium Batteries, The Scientific WorldJournal, 2014, Article ID 107918, 7 pages. (12) Qiang Chen, Yanna NuLi*,Wei Guo, Jun Yang, Jiulin Wang, Yuguo Guo*, PTMA/Graphene as a Novel CathodeMaterial for Rechargeable Magnesium Batteries, Acta Phys. Chim. Sin., 29 (2013)2295. (13) QingSong Zhao, Yanna NuLi*,Tuerxun Nasiman, Jun Yang, JiuLin Wang, Reversible Deposition and Dissolutionof Magnesium from Imidazolium-Based Ionic Liquids, International Journal ofElectrochemistry, 2012, Article ID 701741, 8 pages. (14) Yupei Zheng, Yanna NuLi*,Qiang Chen, Ying Wang, Jun Yang, Jiulin Wang, Magnesium cobalt silicatematerials for reversible magnesium ion storage, Electrochimi. Acta 66 (2012)75. (15) Yanna NuLi*, Yupei Zheng,Ying Wang, Jun Yang, Jiulin Wang, Electrochemical intercalation of Mg2+ in3D hierarchically porous magnesium cobalt silicate and its application as anadvanced cathode material in rechargeable magnesium batteries, J. Mater. Chem.A. 21 (2011) 12437. (16) Yun Li, Yanna NuLi*,Jun Yang, Tuhudahong Yilinuer, Jiulin Wang, MgFeSiO4 preparedvia a molten salt method as a new cathode material for rechargeable magnesiumbatteries, Chinese Science Bulletin 56 (2011) 386. (17) Yanna NuLi*, Yupei Zheng,Fei Wang, Jun Yang, Jun Yang, Andrew I. Minett, Jiulin Wang, Jun Chen, MWNT/C/Mg1.03Mn0.97SiO4 hierarchicalnanostructure for superior reversible magnesium ion storage, Electrochem.Commun. 13 (2011) 1143. (18) Qingsong Zhao, Yanna NuLi*, Yongsheng Guo, Jun Yang, Jiulin Wang, Reversibility ofelectrochemical magnesium deposition from tetrahydrofuran solutions containingpyrrolidinyl magnesium halide, Electrochimi. Acta 56 (2011) 6530. (19) YannaNuLi*, Jun Yang, YongSheng Li, Jiulin Wang, Mesoporous magnesium manganesesilicate as cathode materials for rechargeable magnesium batteries, Chem.Commun. 46 (2010) 3794. (20) YannaNuLi, Jun Yang*, Jiulin Wang, Yun Li, Electrochemical intercalation ofMg2+ in magnesium manganese silicate and its application ashigh-energy rechargeable magnesium battery cathode, J. Phys. Chem. C 113 (2009)12594. (21) YannaNuLi*, Peng Zhang, Zaiping Guo*, Huakun Liu, Jun Yang, Jiulin Wang,Nickle-cobalt oxides/carbon nanocomposites as anode materials for lithium-ionbatteries, Mater. Res. Bull. 44 (2009) 140. (22) YannaNuLi*, Peng Zhang, Zaiping Guo*, Huakun Liu, Jun Yang, Jiulin Wang,Nanostructured NiO-C composites for lithium-ion battery anode, J. Nanosci.Nanotech. 9 (2009) 1951. (23) YannaNuLi, Peng Zhang, Zaiping Guo, Huakun Liu*, Shape evolution of α-Fe2O3 and its size-dependentelectrochemical properties for lithium-ion batteries, J. Electrochem. Soc. 155(2008) A196. (24) YannaNuLi, Peng Zhang, Zaiping Guo, Huakun Liu, Preparation of α-Fe2O3 submicro-flowers by a hydrothermalapproach and their electrochemical performance in lithium-ion batteries,Electrochim. Acta 53 (2008) 4213. (25) YannaNuLi, Peng Zhang, Zaiping Guo*, Huakun Liu, Jun Yang, NiCo2O4/Cnanocomposite as a highly reversible anode material for lithium-ion batteries,Electrochem. Solid-State Lett. 11 (2008) A64. (26) YannaNuLi, Peng Zhang, Zaiping Guo*, Huakun Liu, Controlled synthesis of α-Fe2O3nanostructures and their size-dependentelectrochemical properties for lithium-ion batteries, J. Power Sources 184(2008) 456. (27) YannaNuLi*, Jun Yang, Mingshan Jiang, Synthesis and characterization of Sb/CNTand Bi/CNT composites as anode material for lithium-ion batteries, Mat. Lett.62 (2008) 2092. (28) YannaNuLi*, Zaiping Guo*, Huakun Liu, Jun Yang, A new class of cathode materialsfor rechargeable magnesium batteries: organosulfur compounds based on sulfur-sulfurbonds, Electrochem. Commun. 9 (2007) 1913. (29) YannaNuLi*, Jun Yang, Pu Wang, Electrodeposition of magnesium film from BMIMBF4 ionicliquid, Appl. Surf. Sci. 252 (2006) 8086. (30) PuWang, Yanna NuLi *, Jun Yang, ZhenZhen Feng, Mixed ionic liquidsas electrolyte for reversible deposition and dissolution of magnesium, Surf.Coat. Technol. 201 (2006) 3783. (31) YannaNuLi, Baofeng Wang, Jun Yang*, Xianxia Yuan, Zifeng Ma, Cu5Si-Si/Ccomposites for lithium-ion battery anodes, J. Power Sources 153 (2006) 371. (32) YannaNuLi*, Jun Yang, Zhiyu Jiang, Intercalation of lithium ions into bulk andpowder Highly Oriented Pyrolytic Graphite, J. Phys. Chem. Solids 67 (2006)882. (33) YannaNuLi*, Jun Yang, Rong Wu, Reversible deposition and dissolution of magnesiumfrom BMIMBF4 ionic liquid, Electrochem. Commun. 7 (2005) 1110. (34) YannaNuLi, Jun Yang*, Jiulin Wang, Jinqiang Xu, Pu Wang, Electrochemicalmagnesium deposition and dissolution with high efficiency in ionic liquid,Electrochem. Solid-State Lett. 8 (2005) C166. (35) 苏硕剑,努丽燕娜*,非路热∙吐尔逊,杨军,王久林,正极集流体对可充镁电池电化学性能的影响,物理化学学报,2015, 31 (1): 111-120. (36) 卞沛文,努丽燕娜*,陈强,杨军,王久林,乙烯硫脲-格氏试剂/THF电解液镁沉积-溶出性能,电化学,2014,20 (1):73. (37) 卞沛文,努丽燕娜*, 再娜甫古丽,杨军,王久林,苯硫酚盐基溶液的可充镁电池电解液,物理化学学报,2014, 30 (2): 311. (38) 非路热∙吐尔逊,祖丽皮亚∙沙地克,努丽燕娜*,杨军,王久林,吡唑基镁卤化物/四氢呋喃可充镁电池电解液,物理化学学报,2014, 30 (9): 1634. (39) 努丽燕娜*,杜国栋,冯真真,杨军,EC添加剂对BMImBF4离子液体作为镁沉积电解液的改性研究,化学学报,2008, 66 (2): 175. (40) 努丽燕娜*,杨军,高鹏飞,李云,王久林,隔膜对BMImBF4离子液体电解液中镁沉积-溶出性能的影响,化学学报,2010, 68 (10): 948 (41) 努丽燕娜*,杨军,郑育培,王久林,介孔硅酸锰镁可充镁电池正极材料的制备及其电化学性能研究,无机材料学报,2011, 26 (2): 129. (42) 赵青松,努丽燕娜*,郭永胜,杨军,王久林,可充镁电池电解液,化学进展,2011, 23(8): 1598. (43) 陈强,努丽燕娜*,杨军,凯丽比努尔·克日木,王久林,集流体对可充镁电池电解液电化学性能的影响,物理化学学报,2012, 28 (11): 2625. (44) 娜斯曼·吐尔逊,努丽燕娜*,赵青松,杨 军,王久林,咪唑类离子液体中镁的可逆沉积−溶出性能,中国有色金属学报,2012, 22 (9): 2648. (45) 伊丽奴尔·吐胡达洪,努丽燕娜*,陈 强,杨 军,王久林,钒掺杂的可充镁电池正极材料Mg1.03Mn0.97SiO4,材料科学,2012, 2: 139. (46) 郑育培,努丽燕娜*,杨军,陈强,王久林,可充镁电池正极材料研究进展,化工进展,2011, 30(5): 1024. 发明专利: (1)努丽燕娜,苏硕剑,杜国栋,杨军,王久林,一种可充镁电池,ZL201410784106.5. (2)努丽燕娜,非路热∙吐尔逊,苏硕剑,杨军,王久林,一种二硫化物在可充镁电池中的应用方法,ZL201410083128.9. (3)Yanna NuLi,QingsongZhao, Jun Yang, Yongsheng Guo, Magnesium secondary battery, use of electrolyticsolution in magnesium secondary battery and electrolytic solution for magnesiumsecondary battery, US Patent No. 9,136,528. (4) 努丽燕娜,赵青松,杨军,郭永胜,可充镁电池、电解液在可充镁电池中的应用、以及用于可充镁电池的电解液,ZL201110056952.1. (5)努丽燕娜, 卞沛文, 非路热·吐尔逊, 杨军, 王久林,一种用于可充镁电池的电解液,ZL201310027306.1. (6)努丽燕娜, 卞沛文, 陈强, 杨军, 王久林. 一种磷酸钛镁在可充镁电池正极材料中的应用方法,ZL201210445467.8. (7)努丽燕娜,陈强,哈力旦•艾尼,杨军,王久林,一种含氧有机物正极材料的可充镁电池及其制备方法,ZL201210082250.5. (8)努丽燕娜,郑育培,杨军,毕秋芳,王久林,一种硅酸钴镁在可充镁电池正极材料中的应用,ZL201010274778.3. (9)李云,努丽燕娜,杨军,王久林,徐欣欣,一种可充镁电池正极材料及其制备方法,ZL200810207799.6. (10)努丽燕娜,杨军,冯真真,李云,王久林,一种可充镁电池正极材料硅酸锰镁的制备方法,ZL200810040462.0. (11)努丽燕娜,杨军,李晓明,冯真真,有机硫聚合物在二次镁电池正极材料中的应用,ZL200610027413.4. (12)努丽燕娜,杨军,谢夫苏,有机硫化物在二次镁电池正极材料中的应用,ZL200610027411.5.
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发表于 2018-3-28 19:55:52
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