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邓小清 副教授

                 邓小清  副教授        

                                     

                                   

   

     

     

     

个人简介
邓小清,女,湖南宁乡人,博士,副教授2001-2002年和2002-2004年在四川师大固体物理研究所和中国工程物理研究院读硕士,从事纳米材料的物性研究。2004年至今在长沙理工大学工作,2007年进入中南大学攻读电子信息材料与器件方向的博士,2011年获博士学位。  

主要研究领域1)低维材料物理(电、磁、光)特性研究;2)微纳电子器件设计与性能调控  

教学情况承担《固体物理与半导体物理》、《大学物理实验》、《普通物理实验专题课程教学    

科研项目    

1. 湖南省自科基金面上项目基于硒化铟和三碘化铬异质结器件的理论设计与分析在研,主持  

2. 湖南省教育厅重点项目(基于新型二维材料异质结的理论设计与物性调控研究)、结题、主持。  

3. 湖南省自科学基金青年项目(功能化硅烯电子器件的理论设计)结题主持。  

4. 国家自科基金青年项目(基于石墨烯的功能分子器件的理论设计)、结题、主持。  

5. 湖南省教育厅青年项目(石墨烯功能分子器件的理论设计)结题、主持。  

6. 湖南省科技面上项目(新型纳米电子器件的设计及输运性质研究)结题、主持。  

     

代表性论文(标*为通讯作者):  

1. X.Q.Deng*, Q.Jing, Tunable electronic and optical properties of InSe/arsenene heterostructure by vertical strain and electric fifieldPhys. Lett. A, 2021405: 127427.  

2. X. Q. Deng*, R. Q. Sheng and Q. JingTunable electronic and optical properties of a BAs/ As heterostructure by vertical strain and external electric fifield, RSC Adv., 2021, 11: 21824 .  

3. Q. Sheng, X. Q. Deng*, Z.H. Zhang, Z.Q. Fan, Tunable electronic and optical properties of SnC/BAs heterostructure by external electric field and vertical strain.Phys. Lett. A, 2020, 384:126150.  

4. R.Q. Sheng, L. Sun, X.Q. Deng*, Z.Q. Fan, Z.H. Zhang,Magnetic structure and magnetic transport properties of armchair arsenene Nanoribbons,Solid State Communications , 2019, 297: 27–33.  

5. X. Q. Deng* and R. Q. Sheng, Spin transport investigation of two type silicene nanoribbons heterostructure, Phys. Lett. A , 2019, 383: 47-53.  

6. X. Q. Deng* and R. Q. Sheng, Electronic and thermal spin effect of molecular nanowires between graphene electrodes. RSC Adv., 2019, 8: 34182–34191.  

7. X.Q. Deng*, Z.H. Zhang*, L. Sun, L.J. WuModulation of the magnetic properties in zigzag-edge graphene nanoribbons by connection sites, Org. Electron, 2017,41: 376-383.  

8. X.Q. Deng*, Z.H. Zhang*, G.P. Tang, Z.Q. Fan, L. Sun, C.X. Li, H.L. ZhangThe design of bipolar spin filtering junction in zigzag silicone nanoribbons, Org. Electron, 2016, 37: 245-251.  

9. X.Q. Deng*, Z.H. Zhang*, G.P. Tang, Z.Q. Fan, L. Sun, C.X. Li, Modulation of the spin transport properties of the ironphthalocyanine molecular junction by carbon chains with different connection sites, Org. Electron, 2016, 35: 1–5.  

10. X.Q. Deng*, Z.H. Zhang*, Z.Q. Fan, G.P. Tang, L. Sun, C.X. Li, Spin-filtering and rectifying effects for Al-doped zigzag-edged silicone nanoribbons with asymmetric edge hydrogenation, Org. Electron, 2016, 32: 41–46.  

11. X.Q. Deng* L. Sun, C.X. Li. Spin transport properties for iron-doped zigzag-graphene nanoribbons interface, Acta Phys. Sin.,2016, 65(6): 068503.  

12. X. Q. Deng, Z.H. Zhang*, G.P. Tang, Z.Q. Fan, C.H. Yang. The design of bipolar spin semiconductor based on zigzag–edge graphene nanoribbons. Carbon, 2015, 94:317– 325.  

13. X. Q. Deng*, Z. H. Zhang*, C. H. Yang. Improving the bias range for spin-filtering by selecting proper electrode materials. RSC Advances, 2015, 5:15812 – 15817.  

14. X. Q. Deng, Z.H. Zhang*, G.P. Tang, Z.Q. Fan, C.H. Yang. Spin filter effects in zigzag-edge grapheme nanoribbons with symmetric and asymmetric edge hydrogenations. Carbon,2014, 66: 646– 653  

15. X. Q. Deng*, Z.H. Zhang*, G. P. Tang, Z.Q. Fan, H L. Zhu, C.H. Yang. Edge contact dependent spin transport for n-type doping zigzag-graphene with asymmetric edge hydrogenation. Scientific Reports, 2014, 4: 4038.   

16. X. Q. Deng*, Z. H. Zhang*,  G. P. Tang, Z. Q. Fan, C. H. Yang, Electronic and spin transport properties in zigzag silicene nanoribbons with edge protrusions, RSC Adv., 2014, 4: 58941–58948.  

17. X. Q. Deng*, Z. H. Zhang*, G. P. Tang, Z. Q. Fan, and C. H. Yang. Spin filtering and large magnetoresistance behaviors in carbon chain-zigzag graphene nanoribbon nanojunctions. Phys. Lett. A, 2014, 378:1540–1547.  

18. X. Q. Deng*, Z.H. Zhang*, C.H. Yang, H.L. Zhu, B. Liang. The design of spin filter junction in zigzag grapheme nanoribbons with asymmetric edge hydrogenation. Org. Electron, 2013, 14: 3240–3248.  

19. X. Q. Deng*, C H. Yang H. L. Zhang.  The electronic transport properties affected by B / N doping in graphene-based molecular devices. Acta Phys. Sin., 2013, 62 (18): 186102.  

20. X. Q. Deng, Z.H Zhang*, G. P. Tang, Z. Q. Fan , M. Qiu , C. Guo. Rectifying behaviors induced by BN-doping in trigonal graphene with zigzag edges. Appl. Phys. Lett, 2012, 100: 063107.  

21. X. Q. Deng*, G. P. Tang, C. Guo. Tuning the electronic transport properties for a trigonal graphene flake. Phys. Lett. A, 2012, 376: 1839–1844.  

22. X. Q. Deng, Z.H Zhang* J. C. Zhou*, G. Tang, The rectifying performance of the multibiphenyl with different end groups: A density functional study, J. Appl. Phys, 2011, 109: 063712.  

23. X. Q. Deng, Z. H. Zhang*, J. C. Zhou*, M. Qiu, G. P. Tang. Length and end group dependence of the electronic transport properties in carbon atomic molecular wires. J. Chem. Phys., 2010, 132: 124107.  

24. X. Q. Deng, J. C. Zhou*,Z. H. Zhang*, H. Zhang. Effects of end groups on the rectifying performance in molecular devices. Acta Phys. Sin,. 2010, 59(4):504  

25. X. Q. Deng, Z. H. Zhang*,J. C. Zhou*, M. Qiu. Electronic transport of the silane chain doped with phosphorus and boron atoms. Appl. Phys. Lett, 2010, 97: 143103.  

26. X. Q. Deng, J. C. Zhou*, Z. H. Zhang*, H. Zhang, M. Qiu, and G. P. Tang. Electrode conformation-induced negative differential resistance and rectifying performance in a molecular device. Appl. Phys. Lett., 2009, 95:163109.  

27. X. Q. Deng, J. C. Zhou*, Z. H. Zhang*, G. P. Tang, and M. Qiu. Electrode metal dependence of the rectifying performance for molecular devices: A density functional study. Appl. Phys. Lett., 2009, 95:103113.  

获奖情况:    

   

湖南省自然科学优秀学术论文二等奖2篇(2010年和2012年)。2013年获湖南省自然科学二等奖(低维介观系统中的电子输运及其调控排名第3),2014年获得了湖南省优秀博士论文奖(功能分子器件整流性能的第一原理研究排名第12020年获湖南省自然科学二等奖(分子纳米材料电子特性及相关器件的理论设计排名第2)。  

联系方式xq_deng@163.com  

通讯地址:(邮政编码410004)湖南省长沙市雨花区万家丽南路二段960    

长沙理工大学云塘校区物理与电子科学学院    

   

   

   

   

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