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赵文俞

赵文俞，首席教授、博士生导师，万人计划领军人才

基本情况

赵文俞，男，1969年3月生，2004年获武汉理工大学工学博士学位，现任武汉理工大学材料学科首席教授、博士生导师、中国科学院物理研究所－武汉理工大学热电磁多功能材料及器件联合实验室主任，兼任中国材料研究学会热电材料及应用分会常务理事，2009年入选教育部跨世纪优秀人才支持计划。创建热电磁多功能材料与器件实验室，长期从事热电磁耦合物理新机制、热电磁多功能设计与实现、高性能热电磁多功能新材料及应用研究。基于电子轨道杂化模型，提出通过增大热电材料中亚结构对称性提高电输运性能的新思路；发现热电材料中电子轨道杂化、电子加速运动和声子共振散射等3种局域输运行为的共存机制及其对电子／声子输运的协同调控作用；创造性提出将磁性纳米粒子引入到热电材料基体中，发现磁性纳米粒子的铁磁－顺磁转变和铁磁－超顺磁转变可以诱发电子库、电子多重散射等热电磁新效应，建立了热电磁多功能新材料及器件的设计方法。先后主持国家自然科学基金委青年基金、面上项目和重点项目6项，在Nature、Nature Nanotech.、Nature Commun.、J. Am. Chem. Soc.等国际重要期刊发表论文70余篇。

教育经历

1989.09-1993.07 中国地质大学岩石矿物学专业，理学学士学位

1993.09-1996.07 中国地质大学矿物学专业，理学硕士学位

2000.09-2004.12 武汉理工大学材料学专业，工学博士学位

工作经历

1996.08-1999.08 武汉工业大学，材料研究与测试中心，助教

1999.09-2003.09 武汉工业大学（武汉理工大学），材料研究与测试中心，讲师

2003.10-2007.11 武汉理工大学，材料研究与测试中心，副教授

2007.12-2010.06 武汉理工大学，材料复合新技术国家重点实验室，教授

2010.07~至今武汉理工大学，材料科学与工程学科，博士生导师

2011.10~至今武汉理工大学，二级教授

2018.01~至今武汉理工大学，首席教授

研究领域

1、热电转换材料的电热输运机理与服役行为及其发电应用

2、功能晶体材料及其应用

3、铁氧体磁性材料及其应用

4、热电磁多功能材料与器件及其制冷应用

科研项目

1、国家自然科学基金重点项目：太阳能热电—光电复合发电技术及其关键材料的基础研究，项目负责人

2、国家自然科学基金面上项目：叠层结构热电薄膜的电热输运规律和性能优化研究，项目负责人

3、国家自然科学基金面上项目：磁性纳米复合热电材料的磁电效应和热电性能提升研究，项目负责人

4、国家自然科学基金面上项目：铟掺杂方钴矿基热电材料的电热协同输运效应及机理研究，项目负责人

5、国家自然科学基金面上项目：铁过量磁铅石型铁氧体材料的合成机理及其磁性研究，项目负责人

6、教育部新世纪优秀人才支持计划项目：III主族掺杂热电材料的电热输运特性和服役行为研究，项目负责人

7、国家自然科学基金重点国际合作项目：基于磁性热电材料的新型结构热电器件设计制造和热电磁效应，主要参加人

8、国家“973”计划项目：高效热电转换材料及器件的基础研究，学术秘书

9、国家“973”计划项目：面向规模化应用的高性能热电材料及器件的基础研究，学术秘书

10、国家自然科学基金创新研究群体项目：功能复合材料新结构创制与制备科学基础，学术骨干

代表性论文及著作

1. W. Y. Zhao, Z. Y. Liu, Z. G Sun, Q. J. Zhang*, P. Wei, X. Mu, H. Y. Zhou, C. C. Li, S. F. Ma, D. Q. He, P. X. Ji, W. T. Zhu, X. L. Nie, X. L. Su, X. F. Tang, B. G. Shen, X. L. Dong, J. H. Yang*, Y. Liu, J. Shi. Superparamagnetic enhancement of thermoelectric performance. Nature, 549: 247-251 (2017).

2. W. Y. Zhao, Z. Y. Liu, P. Wei, Q. J. Zhang*, W. T. Zhu, X. L. Su, X. F. Tang, J. H. Yang, Y. Liu, J. Shi, Y. M. Chao, S. Q. Lin, Y. Z. Pei. Magnetoelectric interaction and transport behaviors in magnetic nanocomposite thermoelectric materials. Nat. Nanotech., 12: 55-60 (2017).

3. W. Y. Zhao, P. Wei, Q. J. Zhang, H. Peng, W. T. Zhu, D. G. Tang, J. Yu, H. Y. Zhou, Z. Y. Liu, X. Mu, D. Q. He, J. C Li, C. L Wang, X. F. Tang, J. H. Yang. Multi-localization transport behaviour in bulk thermoelectric materials. Nat. Commun., 6, 6197-1-7 (2015)

4. W. Y. Zhao, P. Wei, Q. J. Zhang*, C. L. Dong, L. S. Liu, X. F. Tang. Enhanced thermoelectric performance in barium and indium double-filled skutterudite bulk materials via orbital hybridization induced by indium filler. J. Am. Chem. Soc., 2009, 131(10): 3713-3720

5. X. Mu, H. Y. Zhou, D. Q. He, W. Y. Zhao*, P. Wei, W. T. Zhu, X. L. Nie, H, J. Liu, Q. J. Zhang*. Enhanced electrical properties of stoichiometric Bi_0.5Sb_1.5Te₃ film with high-crystallinity via layer-by-layer in-situ growth. Nano Energy, 33: 55–64 (2017).

6. H. Y. Zhou, X. Mu, W. Y. Zhao*, D. G. Tang, P. Wei, W. T. Zhu, X. L. Nie, Q. J. Zhang*.Low interface resistance and excellent anti-oxidation of Al/Cu/Ni multilayer thin-film electrodes for Bi₂Te₃-based modules. Nano Energy, 40: 274–281 (2017).

7. P. Wei, W. Y. Zhao*, C. L. Dong, X. Yang, J. Yu, Q. J. Zhang*. Excellent performance stability of Ba and In double-filled skutterudites thermoelectric materials. Acta Mater., 2011, 59(8): 3244~3254

8. W. Y. Zhao, Z. Liang, P. Wei, J. Yu, Q. J. Zhang*, G. S. Shao. Enhanced thermoelectric performance via randomly arranged nanopores: Excellent transport properties of YbZn₂Sb₂ nanoporous materials. Acta Mater., 2012, 60(4): 1741-1746.

9. Danqi He , Wenyu Zhao*, Xin Mu, Hongyu Zhou, Ping Wei, Wanting Zhu, Xiaolei Nie, Xianli Su, Huijun Liu, Jiaqing He, Qingjie Zhang*, Enhanced thermoelectric performance of heavy-fermion YbAl₃via multi-scale microstructures. J. Alloy. Comp., 725:1297-1303 (2017).

10. J. Yu, W. Y. Zhao*, P. Wei, W. T. Zhu, H. Y. Zhou, Z. Y. Liu, D. G. Tang, B. Lei, Q. J. Zhang*. Enhanced thermoelectric performance of (Ba, In) double-filled skutterudites via randomly arranged micropores. Appl. Phys. Lett., 104, 142104 (2014).

11. R. R Li, D. Q. He, X. Mu, H. Y. Zhou, P. Wei*, W. T. Zhu, X. L. Nie, W. Y. Zhao*, Q. J. Zhang, Simultaneously improved electrical properties of crystalline YbAl₃ thin films prepared by co-sputtering technique. RSC Adv., 7: 17271–17278 (2017).

12. W. Y. Zhao, P. Wei, X. Y. Wu, W. Wang, Q. J. Zhang. Lattice vibration characterization and magnetic properties of M-type barium hexaferrite with excessive iron. J. Appl. Phys., 2008, 103(6): 063902-1~5

13. W. Y. Zhao, C. L. Dong, P. Wei, W. Guan, L. S. Liu, P. C. Zhai, X. F. Tang, Q. J. Zhang*. Synthesis and high temperature transport properties of barium and indium double-filled skutterudites Ba_xIn_yCo₄Sb_12-_z. J. Appl. Phys., 2007, 102(11): 113708-1-6

14. P. Wei, W. Y. Zhao*, D. G. Tang, W. T. Zhu, X. L. Nie, Q. J. Zhang*. On the relevance between fine structure and enhanced performance of skutterudite thermoelectric materials: X-ray spectroscopy studies. J. Mater., 2, 280-289(2016)

15. J. Yu, W. Y. Zhao*, H. Y. Zhou, P. Wei, Q. J. Zhang*. Rapid preparation and thermoelectric properties of Ba and In double-filled p-type skutterudites bulk materials. Scripta Mater., 68, 643-646 (2013).

16. D. G. Tang, W. Y. Zhao, S. D. Cheng, P. Wei, J. Yu, Q. J. Zhang, Crystal structure and bonding characteristics of In-doped β-Zn₄Sb₃, J. Solid State Chem., 193, 89-93 (2012).

17. W. Y. Zhao, P. Wei, X. Y. Wu, W. Wang, Q. J. Zhang. Evidence and role of excessive iron in the lattice of M-type barium hexaferrite synthesized by one-step spark plasma sintering method. Scripta Mater., 2008, 59(3): 282~285

18. H. Wu, X. Liu, P. Wei*, H. Y. Zhou, X. Mu, D. Q. He, W. T. Zhu, X. L. Nie, W. Y. Zhao*, Q. J. Zhang, Fabrication and characterization of brush-printed p-type Bi_0.5Sb_1.5Te₃ thick films for thermoelectric cooling devices. J. Electron. Mater., 46(5): 2950-2957 (2017).

19. J. Yu, W. Y. Zhao, B. Lei, D. G. Tang, Q. J. Zhang. Effects of Ge dopant on thermoelectric properties of barium and indium double-filled p-type skutterudites. J. Electron. Mater., 42, 1400-1405 (2013).

20. J. Yu, W. Y. Zhao, P. Wei, D. G. Tang, Q. J. Zhang, Effects of Excess Sb on thermoelectric properties of barium and indium double-filled iron-based p-type skutterudite materials, J. Electron. Mater., 41, 1414-1420 (2012).

21. G．Liu, W. Y. Zhao, H. Y. Zhou, P. Wei, J. Yu, D.G. Tang, Q.J. Zhang, Design and optimization of gradient interface of Ba_0.4In_0.4Co₄Sb₁₂/Bi₂Te_2.7Se_0.3 thermoelectric materials, J. Electron. Mater., 41, 1376-1382 (2012).

22. J. Yu, W.Y. Zhao, X. Yang, P. Wei, D.G. Tang, Q.J. Zhang, Effect of In impurity on thermoelectric properties of Ba and In double-filled n-type skutterudite materials, J. Electron. Mater., 41, 1395-1400 (2012).

23. W. Ping, W. Y. Zhao, C. L. Dong, B. Ma, Q. J. Zhang. Thermal stability of barium and indium double-filled skutterudite Ba_0.3In_0.2Co_3.95Ni_0.05Sb₁₂ coated by SiO₂ nanoparticles. J. Electron. Mater. 2010, 39(9)1803-1808

24. W. Y. Zhao, Ping. Wei, H. B. Cheng, X. F. Tang, Q. J. Zhang. FTIR spectra, lattice shrinkage, and magnetic properties of CoTi-substituted M-type barium hexaferrite nanoparticles. J. Am. Ceram. Soc., 2007, 90(7): 2095~2103

25. W. Y. Zhao, Q. J. Zhang, X. F. Tang, H. B. Cheng, Q. J. Zhang. Nanostructural M-type barium hexaferrite synthesized by spark plasma sintering method. J. Appl. Phys., 2006, 99(8): 08E909-1~3

26. W. Y. Zhao, Q. J. Zhang, L. C. Li, J. G. Guan. Microstructure and magnetic properties of non-stoichiometric M-type hexaferrite with barium surplus. J. Magn. Magn. Mater., 2005, 295(1): 21~27

27. W. Y. Zhao, Q. J. Zhang, X. F. Tang, H. B. Cheng. Synthesis of nonstoichiometric M-type barium ferrite nanobelt by spark plasma sintering method. Chinese Sci. Bull.,50(13): 1404-1408(2005)

28. P. C. Zhai, W. Y. Zhao, Y. Li, L. S. Liu, X. F. Tang, Q. J. Zhang, M. Niino. Nanostructures and enhanced thermoelectric properties in Ce-filled skutterudite bulk materials. Appl. Phys. Lett., 2006, 89(5): 052111-1-3.

联系方式

地址：武汉理工大学材料复合新技术国家重点实验室新材所5楼519实验室

E-mail：wyzhao@whut.edu.cn