人物經歷
2017年7月~蘇州大學能源學院 教授,劉忠范院士 助手,課題組長
2012年2年~2017年6月,蘇州大學能源學院 特聘副教授,蘇州大學-華盛能源研究院副院長
2011年1月~2012年1月,加拿大納米科技國家實驗室 副研究員
2009年4月~2010年12月,University of Alberta,博士後
2003年9月~2008年5月, 廈門大學 物理化學 博士,指導教師:田昭武 院士,田中群 院士
1999年9月~2003年6月,廈門大學 化學系學士,指導教師:田昭武 院士,湯儆 教授
主要貢獻
研究領域 :
(1)化學電源中的低/非活性關鍵作用(粘結劑/導電劑/電解液/添加劑/隔膜);(2)柔性可穿戴高能量密度化學電源(Zn-air電池,Al-air電池,燃料電池)製備以及列印技術用於 解決 化學電源體系中關鍵科學問題探索;(3)納米有機材料的製備技術和能量存儲機制研究;(4)高時間/空間/能量解析度原位光譜技術在化學電源中的套用研究。
科研業績: 近年來 以第一或通訊作者在 Chem. Soc. Rev., Energy Environ. Sci., Adv. Mater., Adv. Energy Mater., Adv. Funct. Mater., Energy Storage materials, Carbon, Nano Res., J. Mater. Chem. A 等SCI論文上發表近40篇(影響因子>10論文12篇,影響因子>7論文20篇)。申請中國專利7項,美國專利2項,授權3項。
主持和參加項目 :
(1) 國家自然科學面上項目 ,21875155,多功能複合型粘結劑的結構和組成設計及其在高負載鋰硫電池中的作用機制研究,2019/01-2022/12,65萬,在研,項 目主持人
(2) 國家自然科學基金面上項目 ,51675275,納米矽可控制備、儲鋰性能調控及其在矽碳複合負極材料中的套用基礎研究, 2017/01-2020/12, 62萬,在研, 項目主持人
(3) 國家自然科學基金面上項目 ,21473119,鋰離子電池電極材料表面石墨烯包覆網路的原位可控生長及對電化學性能影響規律的研究,2015/01-2018/12,82萬元,在研, 項目主持人
(4) 國家自然科學基金青年基金 ,21203132,嵌入型矽/N-摻雜石墨烯納米複合負極材料的一步固相合成及其性能研究,2013/01-2015/12,25萬元,已結題, 項目主持人
(5) 蘇州大學人才引進啟動經費 ,60萬,在研, 項目主持人
(6) 國家自然科學基金重點項目協作課題 (與上海交通大學合作),電化學微納加工儀器調試與工藝研究,5萬,已結題, 項目主持人
(7)國家自然科學基金面上項目,51272168,共摻雜金屬陽離子製備快離子導體複合尖晶石LiNi Mn O 陰極材料,2013/01-2016/12,80萬元,已結題,第二完成人
(8)國家自然科學基金面上項目,20873112,半導體納米線陣列結構的三維“軟”加工方法,2009/01-2011/12,33萬元,已結題,第二完成人
(9)國家自然科學基金青年項目,20503024,複雜三維微/納光學陣列元件的電化學刻蝕加工方法,2006/01-2008/12,28萬元,已結題,第二完成人
(10) 橫向合作課題(寧德新能源科技有限公司) ,鋰離子電池用矽基材料及離子液體套用開發,40萬,2013.09-2015.08,已結題, 項目主持人
(11) 南京航空航天大學開放課題 ,納米矽碳複合負極材料技術基礎研究,3萬,2015.05-2017.12,已結題, 項目主持人
(12)Technology Development Program on Proton Exchange Membrane Fuel Cell (TDP-PEMFC), NRC Institute for Fuel Cell Innovation & NRC National Institute for Nanotechnolog, 2009-2012, 15萬加元/年, 第二完成人
(13)Electrochemical supercapacitors and nanostructured battery materials, NRC-NINT $NSERC Discovery, 2011-2014, 30萬加元/年, 第二完成人
近年來代表性論文: (第一或通訊作者)
(1) Zhongli Hu, Shah Sayed, Tao Jiang, Xingyu Zhu, Chen Lu, Gulian Wang, Jingyu Sun*, Arif Rashid, Chenglin Yan, Li Zhang(*)and Zhongfan Liu, Self-assembled binary organic granules with multiple lithium uptake mechanisms toward high-energy flexible lithium-ion hybrid supercapacitors, Advanced Energy Materials, In Press. (IF=21.87,關鍵通訊作者)
(2)X.Y. Zhu, W. Zhao, Y.Z. Song, Q.C. Li, F. Ding,J.Y. Sun*, Li Zhang(*), Z.F. Liu, In situ assembly of 2D conductive VSwith graphene as a high-sulfur-loading host for lithium-sulfur batteries, Advanced Energy Materials ,2018, 1800201. (IF=21.87,關鍵通訊作者)
(3) J.Y. Sun*, C. Lu, Y.Z. Song, Q.Q. Ji, X.J. Song, Q.C. Li, Y.F. Zhang, Li Zhang(*), J. Kong, Z.F. Liu*, Recent progress in tailored growth of two-dimensional hexagonal boron nitride via chemical vapour deposition, Chemical Society Reviews ,2018, DOI: 10.1039/c8cs00167g. (IF=40.182,共同通訊作者)
(4) X.G. Wang, Q.C. Li, Li Zhang(*), Z.L. Hu, L.H. Yu, T. Jiang, C. Lu, C.L. Yan,J.Y. Sun*, Z.F. Liu, Caging NbOnanowires in PECVD-derived graphene capsules toward bendable sodium-ion hybrid supercapacitors, Advanced Materials,2018, 27, 1800963. (IF=21.95, 共同通訊作者 )
(5) Y.Z. Song, W. Zhao, X.Y. Zhu, Li Zhang(*), Q.C. Li, F. Ding, Z.F. Liu,J.Y. Sun(*), Vanadium dioxide-graphene composite with ultrafast anchoring behavior of polysulfides for lithium-sulfur batteries, ACS Applied Materials & Interfaces,2018,10, 15733-15741. (IF=8.09, 共同通訊作者 )
(6) X.Y. Zhu, F. Zhang, Li Zhang(*), L.Y. Zhang, Y.Z. Song, T. Jiang, S. Sayed, C. Lu, X.G. Wang,J.Y. Sun*, Z.F. Liu*, A highly stretchable cross-linked polyacrylamide hydrogel as an effective binder for silicon and sulfur electrodes toward durable Li-ion storage, Advanced Functional Materials,2018,28, 1705015. (IF=13.325,關鍵通訊作者)
(7) C. Lu, Z.Z. Li, L.H. Yu, Li Zhang(*), Z. Xia, T. Jiang, W.J. Yin, S.X. Dou, Z.F. Liu,J.Y. Sun*, Nanostructured BiSencapsulated within three-dimensional N-doped graphene as active and flexible anodes for Na-ion batteries, Nano Research,2018, DOI: 10.1007/s12274-018-2042-8. (IF=7.994, 共同通訊作者 )
(8) K. Chen1, F. Zhang1,J.Y. Sun, Z.Z. Li, Li Zhang(*), A. Bachmatiuk, Z.Y. Zou, Z.L. Chen, L.Y. Zhang, M.H. Rümmeli, Z.F. Liu*, Growth of defect-engineered graphene on manganese oxides for Li-ion storage, Energy Storage Materials,2018,12, 110-118. (關鍵通訊作者)
(9) Yufei Xia, Jianwen Huang,Wenqi Wu, Yadong Zhang, Hao Wang,Juntong Zhu, Junjie Yao, Li Xu, Yinghui Sun,* Li Zhang(*),Ruifeng Lu, Jie Xiong, Guifu Zou*, Sulfur-doped Rhenium Selenide Vertical Nanosheets: A High-performance Electrocatalyst for Hydrogen Evolution, ChemCatChem, 2018, 10.1002/cctc.201800757. (IF=4.674,共同通訊作者)
(10) Yingze Song, Wen Zhao, Long Kong, Li Zhang(*), Xingyu Zhu, Yuanlong Shao, Feng Ding, Qiang Zhang*, Jingyu Sun*, Zhongfan Liu, Synchronous immobilization and conversion of polysulfides on VO-VN composites targeting high-rate lithium-sulfur batteries, Energy & Environmental Science, 10.1039/C8EE01402G. ( IF=30.067,共同通訊作者)
(11) Yan Wang, Li Zhang ( * ), Liya Zhang, Fei Zhang, Ping He, Honghe Zheng, Haoshen Zhou*, Reversible Lithium‐Ion Uptake in Poly(methylmethacrylate) Thin‐Film via Lithiation/Delithiation at In Situ Formed Intramolecular Cyclopentanedione, Advanced Energy Materials,2016,22,1601375. (IF=21.87,關鍵通訊作者)
(12) Yan Wang, Li Zhang(*),Qunting Qu,Juan Zhang,Honghe Zheng*, Tailoring the Interplay between Ternary Composite Binder and Graphite Anodes toward High-Rate and Long-Life Li-Ion Batteries, Electrochim. Acta, 2016, 191, 70-80. (IF=5.116,關鍵通訊作者)
(13) Liya Zhang , Li Zhang *, Juan Zhang, Peng Xue, Weiwei Hao, Ming Shen, Honghe Zheng, In-situ growth of three-dimensional graphene coatings on arbitrary-shaped micro/nano materials and its mechanism studies, Carbon, 2015, 92, 84-95. (IF=7 . 082,關鍵通訊作者)
(14) Juan Zhang , Li Zhang *, Peng Xue, Liya Zhang, Xianlin Zhang, Weiwei Hao, Jinghua Tian, Ming Shen, Honghe Zheng, Silicon-nanoparticles isolated by in situ grown polycrystalline graphene hollow spheres for enhanced lithium-ion storage, J. Mater. Chem. A, 2015, 3, 7810-7821. (IF=9.931,關鍵通訊作者)
(15) Liya Zhang , Li Zhang *, Juan Zhang, Weiwei Hao, Honghe Zheng, Robust polymeric coating enables the stable operation of silicon micro-plate anodes recovered from photovoltaic industry waste for high performance Li-ion batteries, J. Mater. Chem. A ,2015, 3, 15432-15443. (IF=9.931,關鍵通訊作者)
(16) Hongmei Liu, Guobin Zhu, Li Zhang*, Qunting Qu, Ming Shen, Honghe Zheng*, Controllable synthesis of spinel lithium nickel manganese oxide cathode material with enhanced electrochemical performances through a modified oxalate co-precipitation method, J. Power Sources, 2015, 274, 1180-1187. (IF=6.945,關鍵通訊作者)
(17) Jiaojiao Yun , Li Zhang *, Qunting Qu, Hongmei Liu, Xianlin Zhang, Ming Shen, Honghe Zheng, A Binary Cyclic Carbonates-Based Electrolyte Containing Propylene Carbonate and Trifluoropropylene Carbonate for 5 V Lithium-Ion Batteries, Electrochim. Acta ,2015, 167, 151-159. (IF=5.116,關鍵通訊作者)
(18) Li Zhang *, Liya Zhang , Lili Chai, Peng Xue, Weiwei Hao, Honghe Zheng, A coordinatively cross-linked polymeric network as a functional binder for high-performance silicon submicro-particle anodes in lithium-ion batteries, J. Mater. Chem. A ,2014, 2(44), 19036-19045. (IF=9.931,關鍵通訊作者)
(19) Longfei Zhang, Qunting Qu, Li Zhang*, Jing Li, Honghe Zheng, Confined synthesis of hierarchical structured LiMnPO/C granules by a facile surfactant-assisted solid-state method for high-performance lithium-ion batteries, J. Mater. Chem. A, 2014, 2(3), 711-719. (IF=9.931,關鍵通訊作者)
(20) Jing Li, Li Zhang*, Longfei Zhang, Weiwei Hao, Haibo Wang, Qunting Qu, Honghe Zheng, In-situ growth of graphene decorations for high-performance LiFePOcathode through solid-state reactions, J. Power Sources, 2014, 249, 311-319. (IF=5.116,關鍵通訊作者)
(21) Peng Xue , Li Zhang *, Liya Zhang, Xiaomin Feng, Yibo Zhang, Weiwei Hao, Haibo Wang, Honghe Zheng, In-plane vacancy-induced growth of ultra-high loading cobalt oxide-graphene composite for high-performance lithium-ion batteriesIn-plane vacancy-induced growth of ultra-high loading cobalt oxide-graphene composite for high-performance lithium-ion batteries, Electrochim. Acta, 2014, 136, 330-339. (IF=5.116,關鍵通訊作者)
(22) Longfei Zhang , Lili Chai , Li Zhang *, Ming Shen, Xianlin Zhang, Vincent S. Battaglia, Tyler Stephenson, Honghe Zheng, Synergistic effect between lithium bis(fluorosulfonyl)imide (LiFSI) and lithium bis-oxalato borate (LiBOB) salts in LiPF-based electrolyte for high-performance Li-ion batteries, Electrochim. Acta, 2014, 127, 39-44. (IF=5.116,關鍵通訊作者)
(23) Li Zhang*, Weiwei Hao, Haibo Wang, Longfei Zhang, Xiaomin Feng, Yibo Zhang, Weixiang Chen, Huan Pang, Honghe Zheng, Porous graphene frame supported silicon@graphitic carbon via in situ solid-state synthesis for high-performance lithium-ion anodes, J. Mater. Chem. A, 2013, 1(26), 7601-7611. (IF=9.931,關鍵通訊作者)
(24) Lili Chai, Qunting Qu, Longfei Zhang, Ming Shen, Li Zhang*, Honghe Zheng*, Chitosan, a new and environmental benign electrode binder for use with graphite anode in lithium-ion batteries, Electrochim. Acta, 2013, 105, 378-383. (IF=5.116,關鍵通訊作者)
(25) Jing Li, Qunting Qu, Longfei Zhang, Li Zhang*, Honghe Zheng*, A monodispersed nano-hexahedral LiFePOwith improved power capability by carbon-coatings, J. Alloys Compd ., 2013, 579, 377-383. (IF=3.779,關鍵通訊作者)
(26) Li Zhang(*),, C. M. B. Holt, B. Zahiri, T. Navessin, M. H. Eikerling and D. Mitlin*, Highly Corrosion Resistant Platinum - Niobium Oxide-Carbon Nanotube Electrodes for the Oxygen Reduction Reaction in PEM Fuel Cells, Energy & Environmental Science ,2012, 5, 6156-6172. (IF=30.067,關鍵通訊作者)
(27) Z. Li*, Li Zhang(*), B. Shalchi, X. H. Tan, Z. W. Xu, B. C. Olsen, C. M. B. Holt and D. Mitlin, Carbonized Eggshell Membranes with 3D Architectures as High-Performance Electrode Materials for Supercapacitors, Advanced Energy Materials,2012, 2, 431-437. (IF=21.87,關鍵通訊作者)
(28) Li Zhang, X. Z. Ma, J. L. Zhuang, C. K. Qiu, C. L. Du, J. Tang* and Z. W. Tian, Microfabrication of a Diffractive Microlens Array on n-GaAs by an Efficient Electrochemical Method, Advanced Materials, 2007, 19 (22), 3912-3918. (IF=21.95,第一作者)
(29) Li Zhang(*), C. M. B. Holt, E. J. Luber, B. C. Olsen, M. Danaie, X. W. Cui and D. Mitlin*, Coaxial Vanadium Nitride-Carbon Nanotube Electrochemical Supercapacitors Directly Synthesized and Anchored on Electrically Conductive Substrates, J. Phys. Chem. C, 2011, 115, 24381-24393. (IF=4.49,關鍵通訊作者)
(30) H. T. Wang, Li Zhang(*),X. H. Tan, C. M. B. Holt, B. Zahiri, B. C. Olsen and D Mitlin*, Supercapacitive Properties of Hydrothermally Synthesized Co3O4 Nanostructures, J. Phys. Chem. C, 2011, 115, 17599-17605. (IF=4.49,關鍵通訊作者)
(31) J. Tang, L. Zhangand X. C. Tian, Micromachining on copper and nickel by electrochemical wet stamping, J. Micromech. Microeng., 2010, 20, 115030. ( MEMS領域最高雜誌,共同一作)
(32) Li Zhang(*), L. Y. Wang, C. M. B. Holt, T. Navessin, K. Malek, M. H. Eikerling and D Mitlin*, Oxygen Reduction Reaction Activity and Electrochemical Stability of Thin-Film Bilayer Systems of Platinum on Niobium Oxide, J. Phys. Chem. C, 2010, 114, 16463–16474. (IF=4.49,關鍵通訊作者)
(33) L. Zhang, J. L. Zhuang, X. Z. Ma, J. Tang* and Z. W. Tian, Microstructuring of p-Si(100) by localized electrochemical polishing using patterned agarose as a Stamp, Electrochem. Commun., 2007, 9 (10), 2529-2533. (IF=4.66, 第一作者 )
(34) L. Zhang, X. Z. Ma, J. Tang*, D. S. Qu, Q. Y. Ding and L. N. Sun, Three-dimensional electrochemical microfabrication of n-GaAs using L-cystine as a scavenger, Electrochim. Acta, 2006, 52 (2), 630-635. (IF=5.116, 第一 作者)
(35) L. Zhang, X. Z. Ma, M. X. Lin, Y. Lin, G. H. Cao , J. Tang* and Z. W. Tian, A Comparative Study on Electrochemical Micromachining of n-GaAs and p-Si by Using Confined Etchant Layer Technique, J. Phys. Chem. B, 2006, 110 (37), 18432-18439. (IF=3 . 146, 第一 作者)
獲獎記錄
(1) 張力 等,高比能鋰離子電池關鍵材料開發和高性能電池體系構建,中共江蘇省委、江蘇省人民政府, 江蘇省科學技術二等獎 , 2015.10
(2) 張力 等, n-GaAs上衍射微透鏡陣列的電化學加工方法, 廈門市自然科學優秀學術論文一等獎 ,廈門市科學技術協會、廈門市人事局, 2008.10
(3)廈門大學“傅鷹”獎學金 (化學類最高獎勵) ,優秀畢業生(2003年度以及2008年度)
(4)美國化學會審稿人貢獻獎(2011年度)
(5)蘇州大學第十四屆青年教師課堂教學競賽 二等獎