张友祥,博士 , 武汉大学教授 。山东大学本科,2003年毕业于美国加州大学圣塔巴巴拉分校(UCSB)化学博士,主要研究领域:纳米材料的合成; 二次电池(锂、钠离子电池等)电极材料。
教育与研究经历 教育经历 1992-1996:山东大学理学学士 1996-1997:山东大学理学硕士 1997-1999:韩国成均馆大学化学硕士 1999-2003:美国加州大学圣塔巴巴拉分校(UCSB)化学博士。 研究经历 2004-2005:美国加州纳米系统研究所(CNSI),研究方向为:合成半导体纳米线及其阵列结构,将半导体纳米线制作为气体传感器件和场效应管。 2005-2006:美国马里兰大学(UMCP)物理系博士后,研究方向为:可控合成II-VI族半导体纳米结构,研究纳米结构的自旋电子性质(合作研究)。 2006- :武汉大学化学与分子科学学院副教授,教授,研究方向为:能源材料与纳米材料。 2013-2014:日本国立产业技术综合研究所能源技术研究部门访问学者 研究领域与兴趣
- 纳米材料的合成;
- 二次电池(锂、钠离子电池等)电极材料
包括《基础化学》、《材料化学》、《高等无机化学》、《无机化学前沿》、《无机化学实验》等。 国家自然科学基金:“高能量密度、多锂离子嵌脱的硅酸盐正极材料系统研究”; 国家自然科学基金:“多阴离子过渡金属化合物成为锂离子电池负极材料的机理研究”; 湖北省自然科学基金:“一类新型、高储能密度的钠离子电池正极材料的研究”; 教育部自主科研基金:“纳米结构对基于转换反应的锂离子电池负极材料性能的影响”; 教育部留学回国科研基金:“纳米线阵列气体传感器与化学场效应晶体管”; 国家重点实验室开放课题:“具微-纳结构特征的锂离子电池电极材料的合成及结构与性能研究”; 国家重点实验室开放课题:“具特殊纳米结构特征的磷酸铁的合成”; 横向课题:“磷酸铁锂性能改善的研究” 1. Hai Zhu, Xiaoling Ma*, Ling Zan and Youxiang Zhang*, Effects of V2O5 nanowireson the performances of Li2MnSiO4as a cathode material forlithium-ion batteries, RSC Adv., 2015, 5, 50316-50323. 2. Hai Zhu, Huibing He, Xiongwei Xin, Xiaoling Ma*, Ling Zan and Youxiang Zhang*,Facile synthesis of Li2MnSiO4/C/graphene composite withsuperior high-rate performances as cathode materials for Li-ionbatteries, Electrochim. Acta, 2015, 155, 116-124. 3. Youxiang Zhang, Haijun Yu and Haoshen Zhou*, Two-electron migrationorthosilicate cathode materials for Na-ion batteries, J. Mater.Chem. A, 2014, 2, 11574-11577. 4. Hai Zhu, Xiaozhen Wu, Ling Zan, Youxiang Zhang*, Superior electrochemicalcapability of Li2FeSiO4/C/G composite as cathode materialfor Li-ion batteries, Electrochim. Acta, 2014, 117, 34-40. 5. Hai Zhu, Xiaozhen Wu, Ling Zan, and Youxiang Zhang*, Three-DimensionalMacroporous Graphene−Li2FeSiO4Composite as CathodeMaterial for Lithium-Ion Batteries with Superior ElectrochemicalPerformances, ACS Appl. Mater. Interfaces, 2014, 6,11724−11733. 6. Xiaoming Lou, Xiaozhen Wu, Youxiang Zhang*, A study about g-MnOOH nanowires asanode materials for rechargeable Li-ion batteries, J. Alloy Compd.,2013, 550, 185–189. 7. Xiaozhen Wu, Xuemin Wang, and Youxiang Zhang*, Nanowormlike Li2FeSiO4−CComposites as Lithium-Ion Battery Cathodes with Superior High-RateCapability, ACS Appl. Mater. Interfaces, 2013, 5, 2510−2516. 8. Xiaozhen Wu, Xin Jiang, Qisheng Huo, Youxiang Zhang*, Facile synthesis of Li2FeSiO4/Ccomposites with triblock copolymer P123 and their application as cathodematerials for lithium ion batteries, Electrochim. Acta,2012, 80, 50-55. 9. Xiaoming Lou, Youxiang Zhang*,Synthesis of LiFePO4/C cathode materials with bothhigh-rate capability and high tap density for lithium-ion batteries, J.Mater. Chem., 2011, 21, 4156-4160. 10. Meng Wang, Yong Yang,and Youxiang Zhang*, Synthesis of micro-nano hierarchical structured LiFePO4/Ccomposite with both superior high-rate performance and high tap density, Nanoscale,2011, 3, 4434-4439. 11. Meng Wang, YinghuiXue, Keli Zhang and Youxiang Zhang*,Facile synthesis of FePO4·2H2Onanoplates and their usage for fabricating superior high-rate performanceLiFePO4, Electrochim. Acta, 2011, 56, 4294-4298. 12. Li Chun, Xiaozhen Wu,Xiaoming Lou, and Youxiang Zhang*,Hematite nanoflakes as anodeelectrode materials for rechargeable lithium ion batteries, Electrochim.Acta, 2010, 55, 3089-3092. 13. Xiaoming Lou,Xiaozhen Wu, and Youxiang Zhang*,Goethite nanorods as anode electrodematerials for rechargeable Li-ion batteries, Electrochem. Commun. 2009,11, 1696-1699. 14. S.Y. Yin, L. Song,X.Y. Wang, Y.H. Huang, K.L. Zhang, Y.X. Zhang, Reversible lithium storage in Na2Li2Ti6O14 asanode for lithium ion batteries, Electrochem. Commun. 2009,11, 1251-1254. 15. S.Y. Yin, L. Song,X.Y. Wang, M.F. Zhang, K.L. Zhang, and Y.X. Zhang, Synthesis of spinel Li4Ti5O12 anodematerial by a modified rheological phase reaction, Electrochim. Acta 2009, 54,5629-5633. 16. X. Y. Wang, S.Y. Yin,K.L. Zhang, and Y.X. Zhang, Preparation and characteristic of spherical Li3V2(PO4)3, JAlloy Compd., 2009, 486, L5-L7. 17. Ke Dai, Tianyou Peng,Hao Chen, Ruixue Zhang, and Youxiang Zhang, Photocatalytic degradation and mineralizationof commercial methamidophos in aqueous titania suspension, Environ.Sci. Technol., 2008, 42, 1505-1510. 18. Youxiang Zhang, YunTang, Kwan Lee, and Min Ouyang, Catalytic and Catalyst-free Synthesis of CdSeNanostructures with Single-Source Molecular Precursor and Related DeviceApplication, Nano Lett. 2009, 9, 437-441. 19. Youxiang Zhang,Andrei Kolmakov, Yigal Lilach, Martin Moskovits, Electronic control ofchemistry and catalysis at the surface of an individual tin oxidenanowire, J. Phys. Chem. B 109 (5): 1923-1929. 20. Youxiang Zhang,Andrei Kolmakov, Steeve Chretien, Horia Metiu, Martin Moskovits, Control ofCatalytic Reactions at the Surface of a Metal Oxide Nanowire by ManipulatingElectron Density Inside It, Nano Lett. 4 (3): 403-407. 21. Andrei Kolmakov,Youxiang Zhang, Guosheng Cheng, Martin Moskovits, Detection of CO and O2 UsingTin Oxide Nanowire Sensors, Adv. Mater. 15 (12): 997. 22. Andrei Kolmakov,Youxiang Zhang, Martin Moskovits, Thermal Oxidation of Sn Nanowires: Evidenceof Formation of Sn-SnO2 Core-Shell Metastable Structures, NanoLett. 3 (8): 1125. 23. Daehong Jeong,Youxiang Zhang, Martin Moskovits, Polarized Surface Enhanced Raman Scatteringfrom Aligned Silver Nanowire Rafts, J. Phys. Chem. B 108(34) 12724. 24. Guosheng Cheng,Andrei Kolmakov, Youxiang Zhang, Martin Moskovits, Ryan Munden, Mark A. Reed,Guangming Wang, Daniel Moses, and Jinping Zhang, Current Rectification in aSingle GaN Nanowire with a Well-Defined p-n Junction,Appl. Phys. Lett.,83 (8): 1578. 25. Yiying Wu, TsachiLivneh, Youxiang Zhang, Guosheng Cheng, Jianfang Wang, Jin Tang, MartinMoskovits, Galen D. Stucky, Templated synthesis of highly orderedmesostructured nanowires and nanowire arrays, Nano Lett. 4(12) 2337.
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