博文
琳达·纳萨尔:世界电池领域中的女豪杰
精选
|||
琳达·纳萨尔:世界电池领域中的女豪杰
诸平
加拿大滑铁卢大学(Department ofChemistry ,University of Waterloo)化学、电子及计算机工程教授琳达·纳萨尔(Linda F. Nazar,Email: lfnazar@uw-aterloo.ca)是一位世界电池领域的女杰出科学家,主要研究Energy Storage Materials - Solid State (Electro)Chemistry。2014年琳达·纳萨尔入选为汤森路透的高引作者(Thomson Reuters Highly Cited Researcher)之列。有人称琳达·纳萨尔为锂离子电池界的古迪纳夫(Goodenough),实际上就是约翰·巴尼斯特·古迪纳夫(John B. Goodenough,1922-)。古迪纳夫是一位美国教授和著名的固体物理学家,是二次电池产业的重要学者。他虽然目前是美国德州大学奥斯汀分校任机械工程和材料科学教授,但是同时也是麻省理工学院和牛津大学的教授。磷酸锂铁LFP正极材料的专利起源来自德州大学,真正发现者便是其奥斯丁学区的机械工程教授古迪纳夫博士。古迪纳夫教授是美国国家工程学院、美国国家科学院、法国科学院和西班牙皇家学会的院士成员。他撰写了550多篇文章,85本书的章节和评论,5本书,其中包括2个开创性著作,Magnetism and the ChemicalBond (1963) 和Les oxydesdes metaux de transition (1973)。古迪纳夫是一个2009年恩里科·费米奖(Enrico Fermi Award)的共同获得者。这个总统大奖是一种美国政府最古老和最负盛名的奖励,并有一个37.5万美元的奖金。他在2010年当选为英国皇家学会外籍会员。在2013年2月1日,古迪纳夫获得美国国家科学奖章。
将滑铁卢大学琳达·纳萨尔(Linda F. Nazar)教授比喻为古迪纳夫(Goodenough),足以可见其中世界电池界的影响力之大。她除了入选2014年汤森路透的高引作者之外,2009年曾经获得国际电化学会电池部研究奖,2010年获得加州研究所摩尔杰出学者奖,2011年获国际锂电池学会奖,2011年获国际纯粹化学会化学工程杰出女性科学家奖(2011 Distinguished Women in Chemistry or Chemical Engineering Award)。2011年琳达·纳萨尔博士被评为加拿大皇家学会会员。2012年琳达·纳萨尔博士被聘为加拿大固体储能材料研究首席科学家(Canada Research Chair in Solid State Energy Materials),7年资助140万美元。2012年下半年琳达·纳萨尔博士将其注意力转移到Li-S电池和Li-O2电池的研发方面。加拿大自然资源部(NRCan)2013年3月初对外宣称,在4年之内对于琳达·纳萨尔博士的电动车用高密度储能电池的研发,提供180万美元的研发经费。参与此项目的合作伙伴还有魁北克电力公司(Hydro-Québec),韩国能源技术评估与规划研究所(Korea Institute of Energy Technology Evaluation and Planning)以及BASF公司等。
200篇(项/部)的研究成果累计被引超过1.45万次,2009年以来被引约1.1万次;H指数61,2009年以来的H指数达到50,更多信息见下截图和部分高引(>100次)论著:
标题1–200 | 引用次数 | |
Approaching theoretical capacity of LiFePO4 at room temperature at high rates H Huang, SC Yin, LF Nazar Electrochemical and Solid-State Letters 4 (10), A170-A172 | 2001 | |
A highly ordered nanostructured carbon–sulphur cathode for lithium–sulphur batteries X Ji, KT Lee, LF Nazar Nature materials 8 (6), 500-506 | 2009 | |
Nano-network electronic conduction in iron and nickel olivine phosphates PS Herle, B Ellis, N Coombs, LF Nazar Nature materials 3 (3), 147-152 | 2004 | |
Positive Electrode Materials for Li-Ion and Li-Batteries† BL Ellis, KT Lee, LF Nazar Chemistry of Materials 22 (3), 691-714 | 2010 | |
H Huang, SC Yin, T Kerr, N Taylor, LF Nazar Advanced Materials 14 (21), 1525-1528 | 2002 | |
X Ji, LF Nazar Journal of Materials Chemistry 20 (44), 9821-9826 | 2010 | |
Challenges Facing Lithium Batteries and Electrical Double‐Layer Capacitors NS Choi, Z Chen, SA Freunberger, X Ji, YK Sun, K Amine, G Yushin, ... Angewandte Chemie International Edition 51 (40), 9994-10024 | 2012 | |
A multifunctional 3.5 V iron-based phosphate cathode for rechargeable batteries BL Ellis, WRM Makahnouk, Y Makimura, K Toghill, LF Nazar Nature materials 6 (10), 749-753 | 2007 | |
Electrochemical property: structure relationships in monoclinic Li3-y V2 (PO4) 3 SC Yin, H Grondey, P Strobel, M Anne, LF Nazar Journal of the American Chemical Society 125 (34), 10402-10411 | 2003 | |
D Aurbach, B Markovsky, G Salitra, E Markevich, Y Talyossef, M Koltypin, ... Journal of Power Sources 165 (2), 491-499 | 2007 | |
Synthesis of nanocrystals and morphology control of hydrothermally prepared LiFePO 4 B Ellis, WH Kan, WRM Makahnouk, LF Nazar Journal of Materials Chemistry 17 (30), 3248-3254 | 2007 | |
Spherical ordered mesoporous carbon nanoparticles with high porosity for lithium–sulfur batteries J Schuster, G He, B Mandlmeier, T Yim, KT Lee, T Bein, LF Nazar Angewandte Chemie International Edition 51 (15), 3591-3595 | 2012 | |
TA Kerr, H Wu, LF Nazar Chemistry of materials 8 (8), 2005-2015 | 1996 | |
A reversible solid-state crystalline transformation in a metal phosphide induced by redox chemistry DCS Souza, V Pralong, AJ Jacobson, LF Nazar Science 296 (5575), 2012-2015 | 2002 | |
Screening for superoxide reactivity in Li-O2 batteries: effect on Li2O2/LiOH crystallization R Black, SH Oh, JH Lee, T Yim, B Adams, LF Nazar Journal of the American Chemical Society 134 (6), 2902-2905 | 2012 | |
Sodium and sodium-ion energy storage batteries BL Ellis, LF Nazar Current Opinion in Solid State and Materials Science 16 (4), 168-177 | 2012 | |
Charge ordering in lithium vanadium phosphates: electrode materials for lithium-ion batteries SC Yin, H Grondey, P Strobel, H Huang, LF Nazar Journal of the American Chemical Society 125 (2), 326-327 | 2003 | |
Stabilizing lithium–sulphur cathodes using polysulphide reservoirs X Ji, S Evers, R Black, LF Nazar Nature communications 2, 325 | 2011 | |
Electrochemical Li insertion into conductive polymer/V 2 O 5 nanocomposites F Leroux, G Goward, WP Power, LF Nazar Journal of The Electrochemical Society 144 (11), 3886-3895 | 1997 | |
Electrochemical lithium intercalation into a polyaniline/V 2 O 5 nanocomposite F Leroux, BE Koene, LF Nazar Journal of the Electrochemical Society 143 (9), L181-L183 | 1996 | |
Rhombohedral form of Li3V2 (PO4) 3 as a cathode in Li-ion batteries J Gaubicher, C Wurm, G Goward, C Masquelier, L Nazar Chemistry of materials 12 (11), 3240-3242 | 2000 | |
Reversible lithium uptake by CoP< sub> 3 at low potential: role of the anion V Pralong, DCS Souza, KT Leung, LF Nazar Electrochemistry communications 4 (6), 516-520 | 2002 | |
SC Yin, PS Strobel, H Grondey, LF Nazar Chemistry of materials 16 (8), 1456-1465 | 2004 | |
Nanocrystalline intermetallics on mesoporous carbon for direct formic acid fuel cell anodes X Ji, KT Lee, R Holden, L Zhang, J Zhang, GA Botton, M Couillard, ... Nature chemistry 2 (4), 286-293 | 2010 | |
GR Goward, F Leroux, LF Nazar Electrochimica acta 43 (10), 1307-1313 | 1998 | |
High “C” rate Li-S cathodes: sulfur imbibed bimodal porous carbons G He, X Ji, L Nazar Energy & Environmental Science 4 (8), 2878-2883 | 2011 | |
G Fu, LF Nazar, AD Bain Chemistry of Materials 3 (4), 602-610 | 1991 | |
Proof of supervalent doping in olivine LiFePO4 M Wagemaker, BL Ellis, D Lutzenkirchen-Hecht, FM Mulder, LF Nazar Chemistry of Materials 20 (20), 6313-6315 | 2008 | |
Small Polaron Hopping in Li x FePO4 Solid Solutions: Coupled Lithium-Ion and Electron Mobility B Ellis, LK Perry, DH Ryan, LF Nazar Journal of the American Chemical Society 128 (35), 11416-11422 | 2006 | |
J Rowsell, LF Nazar Journal of the American Chemical Society 122 (15), 3777-3778 | 2000 | |
S Evers, LF Nazar Chemical Communications 48 (9), 1233-1235 | 2012 | |
YH Rho, LF Nazar, L Perry, D Ryan Journal of The Electrochemical Society 154 (4), A283-A289 | 2007 | |
Recent progress in nanostructured cathode materials for lithium secondary batteries HK Song, KT Lee, MG Kim, LF Nazar, J Cho Advanced Functional Materials 20 (22), 3818-3834 | 2010 | |
Nanostructured materials for energy storage LF Nazar, G Goward, F Leroux, M Duncan, H Huang, T Kerr, J Gaubicher International Journal of Inorganic Materials 3 (3), 191-200 | 2001 | |
Synthesis and characterization of polypyrrole/vanadium pentoxide nanocomposite aerogels H áP Wong Journal of Materials Chemistry 8 (4), 1019-1027 | 1998 | |
Insertion of poly (p-phenylenevinylene) in layered MoO3 LF Nazar, Z Zhang, D Zinkweg Journal of the American Chemical Society 114 (15), 6239-6240 | 1992 | |
BL Ellis, WRM Makahnouk, WN Rowan-Weetaluktuk, DH Ryan, LF Nazar Chemistry of Materials 22 (3), 1059-1070 | 2009 | |
Synthesis of a metallic mesoporous pyrochlore as a catalyst for lithium–O2 batteries SH Oh, R Black, E Pomerantseva, JH Lee, LF Nazar Nature chemistry 4 (12), 1004-1010 | 2012 | |
TN Ramesh, KT Lee, BL Ellis, LF Nazar Electrochemical and Solid-State Letters 13 (4), A43-A47 | 2010 | |
Reversible lithium uptake by FeP2 DCC Silva, O Crosnier, G Ouvrard, J Greedan, A Safa-Sefat, LF Nazar Electrochemical and solid-state letters 6 (8), A162-A165 | 2003 | |
M Koltypin, D Aurbach, L Nazar, B Ellis Journal of Power Sources 174 (2), 1241-1250 | 2007 | |
Highly Reversible Li Insertion at 4 V in ε‐VOPO 4/α‐LiVOPO4 Cathodes TA Kerr, J Gaubicher, LF Nazar Electrochemical and Solid-State Letters 3 (10), 460-462 | 2000 | |
New approaches for high energy density lithium–sulfur battery cathodes S Evers, LF Nazar Accounts of chemical research 46 (5), 1135-1143 | 2012 |
更新信息请浏览:http://www.science.uwaterloo.ca/~lfnazar/people.html#nazar
https://blog.sciencenet.cn/blog-212210-837681.html
上一篇:清华张强等人锂硫电池电极材料研究新进展
下一篇:老化的原因仍然是难以捉摸的
