无机化学与材料化学研究中心
徐化云
发布时间:2017年05月18日 17:36    来源:william威廉亚洲官方    点击:[]

【个人简介】


  • 姓名:徐化云

  • 学历:博士研究生

  • 职称:副教授(硕士生导师)

  • 研究类别:物理化学

  • 联系电话:15165090372

  • 地址:济南市山大南路27号老晶体楼北楼318

  • Emailxuhuayun@sdu.edu.cn



【学习及工作经历】

  • 徐化云,威廉希尔中文网站平台副教授、硕士生导师。20077月毕业于中国科技大学,获工学博士学位(导师:陈春华教授)。随后在韩国国立全南大学继续从事高性能锂离子电池电极材料的制备及改性工作。目前作为第一作者或通讯作者已在Nano Energy, Journal of Power SourcesJournal of Materials Chemistry AElectrochimica Acta等刊物发表论文20余篇,合作发表SCI收录论文20余篇。研究论文共被引用900余次。

【主讲课程】

 

  • 《物理化学实验》

  • 《无机及分析化学实验》



【研究领域和兴趣】

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    锂离子电池电极材料的制备与改性研究


  • 钠离子电池的可控制备与电化学性能研究


  • 其它储能电池电极材料的制备与性能研究


【主要论著】

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【科研项目】

  • 1.中国博士后科学基金第八批特别资助, “氟代磷酸钒钠的可控制备及储钠性能研究”,起止年月:2015.9-2018.9, 主持

  • 2.国家博士后面上项目(56批), “钠离子导体与碳材料共同包覆硅酸盐电极材料的研究”,起止年月:2014.12-2017.12, 主持

  • 3. 威廉希尔中文网站平台交叉学科培育项目, “新型持久性有机污染物电化学降解的理论和实验研究”,起止年月:2015.1-2017.12,共同主持

  • 4.国家自然科学基金, “锂离子导体、电子导体混合包覆锂离子电池正极材料的制备及性能研究”,起止年月:2013.1-2015.12, 主持

  • 5.国家自然科学基金, “基于氮化钒的柔性锂离子二次电池负极材料的可控制备与性能研究”,起止年月:2015.1-2018.12,第2位

  • 6.国家自然科学基金, “ 新型锂离子电池负极材料Li3VO4一位复合纳米结构的可控制备及储锂性能、机制研究”,起止年月:2015.1-2018.12,第2位

  • 7.威廉希尔中文网站平台自主创新基金,“二元氮化物锂离子电池负极材料研究”,起止年月:2011.11-2013.12,主持



【科研成果】

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    2013年至今发表部分论文:


  • 18. X. Hou, H.Y. Xu*, L.Q. Xu*, NaFeTiO4 nanorod/multi-walled carbon nanotube composite as anode material for sodium-ionbatteries with high performances in both half and full cells

    Nano Research, 2017, accepted (IF:8.893 )


  • 17. X.L. Jiang*, H.J. Liu, J. Song, C.F. Yin, H.Y. Xu*, Hierarchicalmesoporous octahedral K2Mn1-xCoxFe(CN)6 as asuperior cathode material for sodium- ion batteries, Journal of Materials Chemistry A, 2016, 4(41), 16205-16212. (IF: 8.262)

  • 16. X.L. Jiang, H.Y. Xu, H.Z. Mao, J. Yang, Y.T. Qian, Surface-disorderedand oxygen-deficient LiTi2-xMnx(PO4-y)3nanoparticlesfor enhanced lithium-ion storage, Journalof Power Sources, 2016, 320,94-103. (IF: 6.333)

  • 15. X.J.Jiang, Y.Y. Wang, L.S. Yang, D.W. Li, H.Y. Xu*, Y. Ding*, Dealloying to porous hybridmanganese oxides microspheres for high performance anodes in lithium ionbatteries, Journalof Power Sources 2015, 274, 862-868. (IF: 6.333)

  • 14. X.L. Jiang, H.Y. Xu*, J. Liu, J. Yang, H.Z. Mao, Y.T. Qian, Hierarchical mesoporous Li2Mn0.5Fe0.5SiO4 and Li2Mn0.5Fe0.5SiO4/C assembled by nanoparticles or nanoplates as acathode material for lithium-ion batteries, Nano Energy, 2014, 7, 1-9. (IF: 11.553)

  • 13. N.N. Wang, H.Y. Xu*, L. Chen, J. Yang, Y.T.Qian, A general approch for MFe2O4 (M=Zn, Co, Ni)nanorods and their high performance as anode materials for lithium ionbatteries, Journal of Power Sources 2014, 247, 163-169. ESI高被引论文)(IF: 6.333)

  • 12. N.N. Wang,  L.Chen,   X.J.Ma,  J.Yue,   F.E.Niu,  H.Y.Xu*,  J.Yang*,  Y.T.Qian,Facile synthesis of hierarchically porous NiO micro-tubes as advanced anodematerials for lithium-ion batteries, Journal ofMaterials Chemistry A, 2014, 2, 16847-16850. (IF: 8.262)

  • 11. X.L. Jiang, H.Y. Xu*, J. Liu, J. Yang, H.Z. Mao, Y.T. Qian*,Synthesis of novel morphologies of Li2FeSiO4/C micro-nanocomposites by facile hydrothemal method and their electrochemical properties, RSCAdvances, 2014, 4 (75), 39889 - 39893.

  • 10. H.Y. Xu*,Y.P. Wang, L. Zheng, X.H. Duan, L.H. Wang, J. Yang, Y.T.Qian, Preparation ofpolypyrrole-coated CuFe2O4 and their improvedelectrochemical performance as lithium-ion anodes, Journal of Energy Chemistry, 2014, 23,354-357.

  • 9. Y.L. Zhou, X.L. Liang, L. Chen, J. Yue, H.Y. Xu*, J. Yang*, Y.T. Qian, Novel mesoporous silicon nanorod as an anode material for lithium ion batteries, Electrochimica Acta, 2014, 127, 252-258. (IF: 4.803)

  • 8. Li.E. Li, J. Liu, L.Chen, H.Y. Xu*, J. Yang*, Y.T.Qian, Effect ofdifferent carbon sources on the electrochemical property of rod-like LiMnPO4/Cnanocomposites, RSC Advances, 2013, 3 (19), 6847-6852. (IF:3.289)

  • 7. L. Chen, H.Y. Xu, Li.E. Li, J. Yang, Y.T. Qian,A comparative study of lithium-storage performances of hematite: Nanotubes vs.nanorods, Journal of Power Sources 2014, 245, 429-435. ESI高被引论文)(IF:6.333)

  • 6. J. Liu, H.Y. Xu,X.L. Jiang, J Yang*,Y.T. Qian, Facile solid-state synthesis of Li2MnSiO4/C nanocomposite as asuperior cathode with a long cycle life, Journalof Power Sources 2013, 231, 39-43. (IF: 6.333)

  • 5. N.N. Wang, X.L. Jiang, H.Y. Xu,L. Chen, F. Niu, J. Yang*, Y.T. Qian*, Porous ZnMn2O4microspheres as a promising anode material for advanced lithium-ion batteries, Nano Energy, 2014, 6, 193-199. (IF: 11.553)

  • 4. M. Wang, G.D. Li, H.Y. Xu, JYang*,Y.T. Qian, Enhanced lithium storage performances of hierarchical hollow MoS2nanoparticles assembled from nanosheets, ACS Applied Materials & Interfaces,2013, 5(3), 1003-1008. ESI高被引论文)(IF: 7.145)

  • 3. X. Gu, L. Chen, S.Liu, H.Y. Xu, J Yang*,Y.T. Qian, Hierarchical core–shell a-Fe2O3@C nanotubes asa high-rate and long-life anode for advanced lithium ion batteries, Journal of Materials Chemistry A, 2014, 2, 3439-3444. ESI高被引论文)(IF:8.262)

  • 2. J. Yue, X. Gu, L.Chen, N.N. Wang, X.L. Jiang, H.Y. Xu, J. Yang*, Y.T. Qian, General synthesisof hollow MnO2, Mn3O4 and MnO nanopheres assuperior anode materials for lithium ion batteries, Journal of Materials Chemistry A, 2014, 2, 17421-17426. (IF: 8.262)

  • 1. X. Gu, L. Chen, Z.C. Ju, H.Y. Xu, J. Yang*, Y.T. Qian,Controlled growth of porous alpha-Fe2O3 branches onbeta-MnO2 nanorods for excellent performance in lithium-ionbatteries, Advance Functional Materials, 2013, 32, 4049-4054.ESI高被引论文)(IF:11.382)


    2013年以前部分论文:

    1.X.W. Li, R. Yang, B. Cheng, Q. Hao, H.Y. Xu*, J. Yang, Y.T. Qian, Enhanced electrochemical properties of nano-Li3PO4coated on the LiMn2O4 cathode material for lithium ionbattery at 55 degrees C

  • Materials Letters, 2012, 66: 168-171.

  • 2.E.J. Kim,H.Y. Xu,J.S. Lim, J.Kim, Impact of glucose on the electrochemical performance of nano-LiCoPO4cathode for Li-ion batteries

    Journal of Solid State ofElectrochemistry, 2012, 16:149-155

  • 3. Liu J, H.Y. Xu, Jiang XL, Qian YT, Facilesolid-state synthesis of Li2MnSiO4/C nanocomposite as asuperior cathode with a long cycle life

    Journal of Power Sources2013, 231: 39-43 (IF: 6.333)

  • 4. H.Y. Xu,Cheng B, Xu ED, Xu LQ, Investigations of High Rate Capabilityand High Temperature Performance for Nano-Sized Porous LiAlxMn2-xO4 (x=0, 0.05, 0.1, 0.15) CathodeMaterial

    International Journalof Electrochemical Science, 2012, 12:11917-11928.

  • 5. Da Wang, H.Y. Xu, Man Gu and Chun-Hua Chen, Li2CuTi3O8–Li4Ti5O12double spinel anode material with improved rate performance for Li-ionbatteries.

    ElectrochemistryCommunications, 2009, 11: 50-53.

  • 6. H.Y. Xu, Q.Y. Wang, C.H. Chen, Synthesisof Li[Li0.2Ni0.2Mn0.6]O2 byradiated polymer gel method and impact of deficient Li on its structure andelectrochemical properties

    Journal of Solid State of Electrochemistry, 2008, 12(9): 1173-1178.

  • 7. HF Xiang, H.Y. Xu, ZZ Wang, CH Chen, Dimethylmethylphosphonate (DMMP) as an efficient flame retardant additive for thelithium-ion battery electrolytes.

    Journal of Power Sources 173: 562-564 2007, (IF: 6.333)

  • 8. H.Y. Xu,Xie S, Wang QY, Yao XL, Wang QS, Chen CH, Electrolyte additive trimethylphosphite for improving electrochemical performance and thermal stability ofLiCoO2 cathode.

    Electrochimica Acta, 2006, 52(2): 636-642.

  • 9. Liu Y, H.Y. Xu, Qian YT, Double-source approach toIn2S3 single crystallites and their electrochemicalproperties.

    Crystal Grough & Design, 2006, 6 (6): 1304-1307.

  • 10. H.Y. Xu,Xie S, Ding N.Liu BL, Shang Y, Chen CH, Improvement of electrochemicalproperties of LiNi0.5Mn1.5O4 spinel preparedby radiated polymer gel method.  

    Electrochimica Acta, 2006, 51 (21): 4352-4357.

  • 11. H.Y. Xu,Xie S, Zhang CP, Chen CH, Improving the electrochemical behavior of LiCoO2electrode by mixed Zr-Mg doping.

    Journal of Power Sources 2005, 148:90-94. (IF: 6.333)



【所获专利】



1. 锂离子电池负极用MnOx/Fe2O3纳米复合材料及其制备方法与应用,中国,ZL201310102425.9。3/4

2. 纳米片自组装的MoS2纳米空心材料及其制备与作为储锂电极材料的应用,中国,ZL201210468629.X。4/4

【联合培养情况】

【拟招收研究生情况】

本年度拟招收1-2名硕士研究生,欢迎对储锂储钠等电极材料感兴趣的同学报考!

 

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