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赖晓芳副教授


作者:    点击量:   更新日期:2018-01-05 

个人简述

赖晓芳,博士,“青年百人”特聘副教授,硕士生导师。博士和博士后期间主要从事过渡金属硫族化合物的研究,包括新材料的设计合成、新结构的解析和新物理性能的探索,取得的成果发表在J. Am. Chem. Soc.Inorg. Chem.Sci. Rep.Phys. Rev. BChem. Mater.等国际知名学术期刊上。其中,代表性工作是四方相FeS超导体的发现,该工作消除了近八年来超导研究者们对于四方相FeS没有超导电性的困惑,为铁基超导研究开辟了新的方向,同时也为铁基超导理论的完善起到了积极推动作用。目前感兴趣的课题是新超导材料和新电磁功能材料的设计合成及其性质研究。

办公室:广州大学城外环西路100号实验三号楼308

邮箱: laixiaofang@gdut.edu.cn

电话:18011709217

学科领域:材料物理与化学,凝聚态物理

科研方向:超导材料,电磁功能材料

教育经历

20099-20147  中科院物理研究所  凝聚态物理专业  硕博连读(推荐免试)

20059-20097  华南理工大学      应用物理学专业  理学学士

工作经历

20173-至今   广东工业大学物理与光电工程学院   副教授 硕士生导师

201410-20172  北京大学化学与分子工程学院   博士后

奖励和荣誉

2013-2014:中国科学院大学“三好学生”

2013:获得PANalytical User Paper Award 2013

2013:中国科学院物理研究所所长奖学金表彰奖

2011:中国科学院物理研究所所长奖学金表彰奖

2008-2009:华南理工大学优秀毕业生

2007-2008:国家奖学金、华南理工大学三好学生优秀学生党员、二等奖学金(全系前5%

2006-2007:国家奖学金、华南理工大学三好学生、二等奖学金(全系前5%

2005-2006:华南理工大学三好学生、二等奖学金(全系前5%

科研项目

1. 广东工业大学青年百人科研启动经费,2017-202220万,在研,主持。

2. 国家自然科学基金青年基金,项目批准号:51702058,新型FeS基层状化合物的合成、结构与物性研究,2018.01-2020.1221 万,在研,主持。

主要论文

1. X. F. Lai, H. Zhang, Y. Q. Wang, X. Wang, X. Zhang, J. H. Lin, and F. Q. Huang, Observation of superconductivity in tetragonal FeS, J. Am. Chem. Soc. 137, 10148-10151 (2015).

2. X. F. Lai, Y. Liu, X. J. Lü, S. J. Zhang, K. J. Bu, C. Q. Jin, H. Zhang, J. H. Lin, and F. Q. Huang, Suppression of superconductivity and structural phase transitions under pressure in tetragonal FeS, Sci. Rep. 6, 31077 (2016).

3. X. F. Lai, X. L. Chen, S. F. Jin, G. Wang, T. T. Zhou, T. P. Ying, H. Zhang, S. J. Shen, and W. Y. Wang, New layered iron sulfide NaFe1.6S2: synthesis and characterization, Inorg. Chem. 52, 12860-12862 (2013).

4. X. F. Lai, Z. P. Lin, K. J. Bu, X. Wang, H. Zhang, D. D. Li, Y. Q. Wang, Y. H. Gu, J. H. Lin, and F. Q. Huang, Ammonia and iron cointercalated iron sulfide (NH3)Fe0.25Fe2S2: hydrothermal synthesis, crystal structure, weak ferromagnetism and crossover from negative to positive magnetoresistance, RSC Adv. 6, 81886-81893 (2016).

5. X. F. Lai, S. F. Jin, X. Chen, T. T. Zhou, T. P. Ying, H. Zhang, and S. J. Shen, New layered manganese selenide KMnAgSe2: structure and properties, Mater. Express 4, 343-348 (2014).

6. T. P. Ying, X. F. Lai (共同一作), X. C. Hong, Y. Xu, L. P. He, J. Zhang, M. X. Wang, Y. J. Yu, F. Q. Huang, and S. Y. Li, Nodal superconductivity in FeS: Evidence from quasiparticle heat transport, Phys. Rev. B 94, 100504(R) (2016).

7. K. J. Bu, J. Q. He, X. F. Lai (共同通讯作者), C. S. Song, D. Wang, J. J. Xu, S. S. Wang, and F. Q. Huang, Effects of iron doping on the physical properties of quaternary ferromagnetic sulfide: Ba2Fe0.6V1.4S6, Inorg. Chem. 56, 8302-8310 (2017).

8. J. Pan, C. G. Guo, C. S. Song, X. F. Lai, H. Li, W. Zhao, H. Zhang, G. Mu, K. J. Bu, T. Q. Lin, X. M. Xie, M. W. Chen, and F. Q. Huang, Enhanced superconductivity in restacked TaS2 nanosheets, J. Am. Chem. Soc. 139, 4623-4626 (2017).

9. C. G. Guo, J. Pan, H. Li, T. Q. Lin, P. Liu, C. S. Song, D. Wang, G. Mu, X. F. Lai, H. Zhang, W. Zhou, M. W. Chen, and F. Q. Huang, Observation of superconductivity in 1T’-MoS2 nanosheets, J. Mater. Chem. C 5, 10855-10860 (2017).

10. J. Q. He, X. Zhang, X. F. Lai, and F. Q. Huang, Selenium doping NaCl-type superconductor: SnAs1-xSex (x=0~0.13), J. Solid State Chem. 252, 106-110 (2017).

11. X. Zhang, X. F. Lai, N. Yi, J. Q. He, H. J. Chen, H. Zhang, J. H. Lin, and F. Q. Huang, Synthesis, crystal structure and physical properties of [Li0.85Fe0.15OH][FeS], RSC Adv. 5, 38248-38253 (2015).

12. Y. Q. Wang, X. F. Lai, X. J. Lü, Y. T. Li, Q. L. Liu, J. H. Lin, and F. Q. Huang, Tailoring the photocatalytic activity of layered perovskites by opening the interlayer vacancy via ion-exchange reactions, CrystEngComm 17, 8703-8709 (2015).

13. Y. Q. Wang, R. Q. Wang, Q. L. Liu, X. F. Lai, X. Zhang, H. J. Chen, C. Zheng, J. H. Lin, and F. Q. Huang, Solvothermal synthesis, structure and physical properties of Cs[Cr(en)2MSe4] (M = Ge, Sn) with [MSe4]4− tetrahedra as chelating ligand, Dalton Trans. 45, 9097-9102 (2016).

14. Y. Liu, G. Wang, T. P. Ying, X. F. Lai, S. F. Jin, N. Liu, J. P. Hu, and X. L. Chen, Understanding doping, vacancy, lattice stability and superconductivity in KxFe2-ySe2, Adv. Sci. 160098 (2016).

15. T. T. Zhou, Y. M. Wang, S. F. Jin, D. D. Li, X. F. Lai, T. P. Ying, H. Zhang, S. J. Shen, W. J. Wang, and X. L. Chen, Structures and physical properties of layered oxyselenides Ba2MO2Ag2Se2 (M = Co, Mn), Inorg. Chem. 53, 4154-4160 (2014).

16. T. P. Ying, X. L. Chen, G. Wang, S. F. Jin, X. F. Lai, T. T. Zhou, H. Zhang, S. J. Shen, and W. Y. Wang, Superconducting phases in potassium-intercalated iron selenides, J. Am. Chem. Soc. 135, 2951-2954 (2013).

17. T. T. Zhou, X. L. Chen, J. G. Guo, S. F. Jin, G. Wang, X. F. Lai, T. P. Ying, H. Zhang, S. J. Shen, S. C. Wang, and K. X. Zhu, Effects of Co and Mn doping in K0.8Fe2-ySe2 revisited, J. Phys.: Condens. Matter 25, 275701 (2013).

18. S. J. Shen, G. Wang, S. F. Jin, Q. Z. Huang, T. P. Ying, D. D. Li, X. F. Lai, T. T. Zhou, H. Zhang, Z. P. Lin, X. Z. Wu, and X. L. Chen, Tunable cobalt vacancies and related properties in LaCoxAs2, Chem. Mater. 26, 6221-6225 (2014).

19. T. P. Ying, G. Wang, S. F. Jin, S. J. Shen, H. Zhang, T. T. Zhou, X. F. Lai, W. Y. Wang, and X. L. Chen, Exploring FeSe-based supercondcutors by liquid ammonia method, Chin. Phys. B 22, 087412 (2013).

20. T. P. Ying, X. L. Chen, G. Wang, S. F. Jin, T. T. Zhou, X. F. Lai, H. Zhang, and W. Y. Wang, Observation of superconductivity at 30~46 K in AxFe2Se2 (A = Li, Na, Ba, Sr, Ca, Yb, and Eu), Sci. Rep. 2, 426 (2012).

21. J. G. Guo, X. L. Chen, G. Wang, S. F. Jin, T. T. Zhou, and X. F. Lai, Effect of doping on electrical, magnetic, and superconducting properties of KxFe2-yS2, Phys. Rev. B 85, 054507 (2012).

22. J. J. Lin, L. W. Guo, Q. S. Huang, Y. P. Jia, K. Li, X. F. Lai, and X. L. Chen, Anharmonic phonon effects in Raman spectra of unsupported vertical graphene sheets, Phys. Rev. B 83, 125430 (2011).

23. 郭建刚,金士锋,王刚,王顺冲,朱开兴,周婷婷,赖晓芳,贺蒙,陈小龙,新型铁基超导体材料的研究进展,物理40卷,8期,510-515 (2011)。(约稿)

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