趙文俞

1989.09-1993.07中國地質大學岩石礦物學專業，理學學士學位

1993.09-1996.07中國地質大學礦物學專業，理學碩士學位

2000.09-2004.12武漢理工大學材料學專業，工學博士學位

1996.08-1999.08 武漢工業大學，材料研究與測試中心，助教

1999.09-2003.09 武漢工業大學（武漢理工大學），材料研究與測試中心，講師

2003.10-2007.11 武漢理工大學，材料研究與測試中心，副教授

2007.12-2010.06 武漢理工大學，材料複合新技術國家重點實驗室，教授

2010.07~至今 武漢理工大學，材料科學與工程學科，博士生導師

2011.10~至今 武漢理工大學，二級教授

2018.01~至今 武漢理工大學，首席教授

1、熱電轉換材料的電熱輸運機理與服役行為及其發電套用

2、功能晶體材料及其套用

3、鐵氧體磁性材料及其套用

4、熱電磁多功能材料與器件及其製冷套用

創建熱電磁多功能材料與器件實驗室，長期從事熱電磁耦合物理新機制、熱電磁多功能設計與實現、高性能熱電磁多功能新材料及套用研究。基於電子軌道雜化模型，提出通過增大熱電材料中亞結構對稱性提高電輸運性能的新思路；發現熱電材料中電子軌道雜化、電子加速運動和聲子共振散射等3種局域輸運行為的共存機制及其對電子/聲子輸運的協同調控作用；創造性提出將磁性納米粒子引入到熱電材料基體中，發現磁性納米粒子的鐵磁－順磁轉變和鐵磁－超順磁轉變可以誘發電子庫、電子多重散射等熱電磁新效應，建立了熱電磁多功能新材料及器件的設計方法。先後主持國家自然科學基金委青年基金、面上項目和重點項目6項，在Nature、Nature Nanotech.、Nature Commun.、J. Am. Chem. Soc.等國際重要期刊發表論文70餘篇。

1、國家自然科學基金重點項目：太陽能熱電—光電複合發電技術及其關鍵材料的基礎研究，項目負責人

2、國家自然科學基金面上項目：疊層結構熱電薄膜的電熱輸運規律和性能最佳化研究，項目負責人

3、國家自然科學基金面上項目：磁性納米複合熱電材料的磁電效應和熱電性能提升研究，項目負責人

4、國家自然科學基金面上項目：銦摻雜方鈷礦基熱電材料的電熱協同輸運效應及機理研究，項目負責人

5、國家自然科學基金面上項目：鐵過量磁鉛石型鐵氧體材料的合成機理及其磁性研究，項目負責人

6、教育部新世紀優秀人才支持計畫項目：III主族摻雜熱電材料的電熱輸運特性和服役行為研究，項目負責人

7、國家自然科學基金重點國際合作項目：基於磁性熱電材料的新型結構熱電器件設計製造和熱電磁效應，主要參加人

8、國家“973”計畫項目：高效熱電轉換材料及器件的基礎研究，學術秘書

9、國家“973”計畫項目：面向規模化套用的高性能熱電材料及器件的基礎研究，學術秘書

10、國家自然科學基金創新研究群體項目：功能複合材料新結構創製與製備科學基礎，學術骨幹

1.W. Y. Zhao,Z. Y. Liu, Z. GSun, 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 bariumand indium double-filled skutterudite bulk materialsvia 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_1.5Te₃film 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 YbZn₂Sb₂nanoporous 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 YbAl₃ via 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 viarandomly arranged micropores. Appl. Phys. Lett.,104, 142104 (2014).

11.R. RLi, 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 YbAl₃thin 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 therelevancebetween finestructure and enhanced performance ofskutterudite thermoelectric materials: X-ray spectroscopystudies. 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 skutteruditesbulk 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 ofM-type barium hexaferrite synthesized by one-step spark plasma sintering method. ScriptaMater.,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_1.5Te₃thick 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_0.3thermoelectric 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_0.05Sb₁₂coated by SiO₂nanoparticles. 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.