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  • 【姓名】  李甫

    【学位】  博士

    【职称】  助理教授

    【备注】  硕士生导师

    【电话】  075526905882

    【邮箱】  lifu@szu.edu.cn

    李甫,女,博士,助理教授,深圳市国内高层次人才。

     

    201301月博士毕业于清华大学材料与科学工程系,201303月至201603月于清华大学深圳研究生院从事博士后科学研究工作。201604月加入深圳大学从事教学科研工作,目前在物理与能源学院担任助理教授。以项目负责人身份主持的科研项目包括:1项国家自然科学基金青年基金项目,1项中国博士后科学面上基金一等资助项目,3项深圳市知识创新计划基础研究项目和1项深圳大学青年教师科研启动项目。同时以科研骨干身份参与多个科研项目。目前累计发表论文三十余篇,总引用次数六百多次,参加学术会议十余次。授权发明专利1项。

     

    主要研究领域:热电材料及微器件、功能薄膜

     

    教学工作:《大学物理实验1》《大学物理实验2》《真空技术基础》等

     

    论文发表:

    [1] Z. H. Ge, Y. Chang, F. Li* (通讯作者), J.T. Luo, P. Fan. Improved thermoelectric properties of PEDOT:PSS Polymer bulk prepared using spark plasma sintering. Chemical Communications, 2018, 54, 2429-2431.

    [2] F. Li, W.T. Wang, Z.H. Ge, Z.H. Zheng, J.T. Luo, P Fan, B. Li. Enhanced Thermoelectric Properties of Polycrystalline SnSe via LaCl3 Doping. Materials, 2018, 11, 203.

    [3] F. Li, W.T. Wang, X.C. Qiu, Z.H. Zheng, P. Fan, J.T. Luo, B. Li. Optimization of thermoelectric properties of n-type Ti, Pb co-doped SnSe. Inorganic Chemistry Frontiers, 2017, 4, 1721-1729.

    [4] F. Li, Z.H. Zheng, Y.W. Li, W.T. Wang, J.-F. Li, B. Li, A.H. Zhong, J.T. Luo, P. Fan. Ag-doped SnSe2 as a promising mid-temperature thermoelectric material. Journal of Materials Science, 2017, 52, 10506-10516.

    [5] Z.H. Zheng, F. Li*(通讯作者), J.T. Luo, G.X. Liang, H.L. Ma, X.H. Zhang, P. Fan. Enhancement of power factor in zinc antimonide thermoelectric thin film doped with titanium. Materials Letters, 2017, 209, 455-458.

    [6] Y.W. Li, F. Li*(通讯及共同一作), W. JinJ.F. Dong, Z.H. Ge, F.Y. Kang, H.D.Du, J.Q. He, J.-F. Li. Enhanced Mid-temperature thermoelectric performances in textured SnSe polycrystal made solvothermally synthesized powder. Journal of Materials Chemistry C, 2016, 4, 2047-2045.

    [7] J. Wu, F. Li*(通讯作者), T.R. Wei, Z.H. Ge, F.Y. Kang, J.Q. He, J.-F. Li. Mechanical alloying and spark plasma sintering of BiCuSeO oxyselenide: synthesis process and thermoelectric properties. Journal of the American Ceramic Society, 2016, 99[2], 507-514.

    [8] F. Li, T.R. Wei, F.Y. Kang, J.-F. Li. Thermal stability and oxidation resistance of BiCuSeO based thermoelectric ceramics. Journal of Alloys and Compounds, 2014, 614, 394-400.

    [9] F. Li, T.R. Wei, F.Y. Kang, J.F. Li. Enhanced thermoelectric performance of Ca-doped BiCuSeO in a wide temperature range, Journal of Materials Chemistry A, 2013, 1, 11942-11949.

    [10] F. Li, J.-F. Li, L.D. Zhao, K. Xiang, Y. Liu, B.P. Zhang, Y.H. Lin, C.W. Nan, H.M. Zhu, Polycrystalline BiCuSeO oxide as a potential thermoelectric material, Energy & Environmental Science, 2012, 5, 7188-7195.

    [11] F. Li, J.-F. Li, J.H. Li, F.Z. Yao, Effect of Cu substitution on microstructure and thermoelectric properties of LaCoO3 ceramics, Physical Chemistry Chemical Physics, 2012, 14, 12213-12220.

    [12] F. Li, J.-F. Li, Enhanced thermoelectric performance of separately Ni-doped and Ni/Sr-codoped LaCoO3 nanocomposites, Journal of the American Ceramic Society, 2012, 95, 3562-3568.

    [13] F. Li, J.-F. Li, Microstructure and thermoelectric properties of AgSbO3 ceramics prepared by ion-exchange powder synthesis and normal sintering, Journal of Electronic Materials, 2011, 40(5), 1035-1041.

    [14] F. Li, J.-F. Li, Effect of Ni substitution on electrical and thermoelectric properties of LaCoO3 ceramics, Ceramics International, 2010, 37(1), 105-110.

    [15] F. Li, J.-F. Li, Preparation and thermoelectric properties of LaCoO3 ceramics, Key Engineering Materials, 2010, 434-435, 404-408.

    [16] D.D. Liang, Z.H. Ge, B.P. Zhang, F. Li. Enhanced thermoelectric property in superionic conductor Bi-doped Cu1.8S, Journal of Alloys and Compounds, 2017708, 169-174.

    [17] Z.H. Zheng, F. Li, F. Li, Y.Z. Li, P. Fan, J.T. Luo, G.X. Liang, B. Fan, A.H. Zhong. Thermoelectric properties of co-sputtered CoSb3 thin films as a function of stoichiometry, Thin Solid Film, 2017632, 88-92.

    [18] D.W. Liu, A.J. Jin, W.B. Peng, Q.M. Li H. Guo, L.J. Zhu, F. Li, Z.X. Zhu. Micro-Thermoelectric Generation Modules Fabricated with Low-Cost Mechanical Machining Processes, Journal of Electronic Materials, 2017, 46, 2999-3006.

    [19] M. Yin, A.H. Zhong, J.T. Luo, F. Li, Z.H. Zheng, P. Fan. Low Resistance Ohmic Contact for ZnSb Thin Film, Journal of Electronic Materials, 2017, 46, 3256-3261.

    [20] Z.H. Zheng, M. Wei, F. Li, J.T. Luo, H.L. Ma, Optimization in fabricating skutterudite CoSb3 thermoelectric thin films, Journal of Materials Science-Materials in Electronics, 2017, 28, 17221-17226.

    [21] Asfandiyar, T.R. Wei, Z. Li, F.H. Sun, Y. Pan, C.F. Wu, Farooq MU, H. Tang, F. Li, B. Li, J.-F Li. Thermoelectric SnS and SnS-SnSe solid solutions prepared by mechanical alloying and spark plasma sintering: Anisotropic thermoelectric properties, Scientific Reports, 2017, 7, 43262.

    [22] C. Chang, Y. Xiao, X. Zhang, Y.L. Pei, F. Li, Y. Liu, L.D. Zhao, Y.C. Zhu, Y.C. Liu, S.L. Ma, B.F. Yuan,Y. Liu, S.K. Gong, L.D. Zhao, High Performance Thermoelectric from Earth-abundant Materials: Enhanced Figure of Merit in PbS through Nanostructuring Grain Size, Journal of Alloys and Compounds, 2016, 664, 411-416.

    [23] Y. Liu, L.D. Zhao, Y.C. Zhu, Y.C. Liu, F. Li, M.J. Yu, D.B. Liu, W. Xu, Y.H. Lin, C.W. Nan. Synergistically optimizing electrical and thermal transport properties of BiCuSeO via dual doping approach, Advanced Energy Materials, 2016, accepted.

    [24] Y. Xiao, C. Chang, X. Zhang, Y.L. Pei, F. Li, B.F. Yuan, S.K. Gong, L.D. Zhao, Thermoelectric Transport Properties of AgmPb100BimSe100+2m System, Journal of Materials Science: Materials in Electronics, 2016,27[3], 2712-2717.

    [25] T.R. Wei, F. Li, J.-F. Li. Enhanced thermoelectric performance of nonstoichiometric compounds Cu3_xSbSe4 by Cu deficiencies. Journal of Electronic Materials, 2014, 46(6), 2229-2238.

    [26] Y. Zhou, D.Y. Yang, L.L. Li, F. Li, J.-F. Li. Fast Seebeck coefficient measurement based on dynamic method, Review of Scientific Instruments, 2014, 85, 054904.

    [27] Y.L. Pei, J.Q. He, J.-F. Li, F. Li, Q.J. Liu, W. Pan, C. Barreteau, D. Berardan, N. Dragoe, L.-D. Zhao. High thermoelectric performance of oxyselenides: intrinsically low thermal conductivity of Ca-doped BiCuSeO, NPG Asia Materials, 2013, 5, e47.

    [28] J.H. Li, Q.T., J.–F. Li, D.W. Liu, F. Li, Z.Y. Li, M.M. Zou, K. Wang. BiSbTe-based nanocomposite with high ZT: effect of SiC nano-dispersion on thermoelectric property. Advanced Functional Materials, 2013, 23, 4317-4323.

    [29] Y. Ou, J. Peng, F. Li, Z.X. Yu, F.Y. Ma, S.H. Xie, J.-F. Li, J.Y.Li, The effects of dual doping on the thermoelectric properties ofCa3-xMxCo4-yCuyO9 (M=Na, La), Journal of Alloys and Compounds, 2012, 526, 139-144.

    [30] Y. Liu, L. Zhao, Y. Liu, J. Lan, W. Xu, F. Li, B.-P. Zhang, D. Berardan, N. Dragoe, Y.-H. Lin, C.-W. Nan, J.-F. Li, H.M. Zhu, Remarkable Enhancement in Thermoelectric Performance of BiCuSeO by Cu Deficiencies, Journal of the American Chemical Society, 2011, 136(50), 20112-20115.

     

    授权专利:

    [1]李甫,吴晋,康飞宇,李敬锋,LaCuSeO热电化合物的制备方法,ZL201510881890.6,授权。