刘玉申

发布时间:2019-07-03阅读次数:

办公地点 研究方向
学位职称


个人简介:

刘玉申,男,汉族,19792月生,中共党员,博士,教授。硕士生导师。现任云顶娱乐官网下载院长。20077月毕业于复旦大学物理系获理学博士学位。自毕业以来,一直在高校从事教学,科研和管理工作,主要讲授嵌入式C语言、大学物理、数学物理方法及理论力学等课程。 20118月晋升副教授,20168月破格晋升教授。 期间于20088-20104, 赴台湾交通大学电子物理系从事博士后研究。20117-20127月访学于美国印第安州州立大学物理系。2012年入选江苏省“青蓝工程”优秀青年骨干教师培养对象,期满考核优秀;2014年获批江苏省“六大人才高峰”第十一批高层次人才C类资助。2019年入选江苏省“青蓝工程”中青年学术带头人培养对象。 2019.03-2020.03, 南京工业大学科学研究部副部长(挂职)。

研究方向:
1.  
微纳电学与热电器件
2.  
微纳探测器与传感器
科研项目:

1. 苏州市前瞻性应用研究,SYG201819, 石墨烯/硅纳米柱径向异质结光伏效应及电荷传输机制研究,2018/07-2020/068万,在研,主持。

2. 国家自然科学基金面上项目,61674022,具有边缘态无金属层状纳米结构器件自旋热电性能增强机制的研究,2017/01-2020/1260万,在研,主持

3. 江苏省高等学校优秀科技创新团队-微纳结构与能源器件,2017年,30万,主持
4.
国家自然科学基金青年科学基金项目,61306122,含时量子点系统中自旋热电效应的理论研究, 2014/01-2016/1225万,已结题,主持
5.
江苏省科技项目-基础研究计划(自然科学基金)-面上项目,2014/07-2017/06, 10万元,已结题,主持
6.
国家自然科学基金专项基金项目,11247028, 分子热电器件的理论和应用研究,2013/01-2015/12, 20万,已结题,主持
7.
国家自然科学基金专项基金项目,10947130, 量子点隧穿结中自旋相关的热电效应,2009/01-2009/12 3万元,已结题,主持

教科研论文:

1. Yaojun Dong,Yinzhong Wu, Xuefeng Wang,*, Xifeng Yang,*, and Yushen Liu*, Nanoporous Graphene Nanoribbons: Robust Spin-Semiconducting Property and Perfect Spin Seebeck Effects. J. Phys. Chem. C 123, 29126−29132 (2019).

2. Xifeng Yang, Fangxin Tan, Yaojun Dong, Hailin Yu and Yushen Liu*, Transition metal containing molecular devices: controllable single-spin negative differential thermoelectric resistance effects under gatevoltages.Physical Chemistry Chemical Physics, 21, 5243-5252 (2019).

3. Xifeng Yang; Zhenguang Shao; Hailin Yu; Yaojun Dong; Yawei Kuang and Yushen Liu*Carbon chain-based spintronic devices: Tunable single-spin Seebeck effect, negative differential resistance and giant rectification effects. Organic Electronics, 55, 170-176 (2018).

4. Hailin Yu; Xuefan Jiang; Meng Qiu Cai; Jinfu Feng; Xiaoshuang Chen; Xifeng Yang and Yushen Liu*Electronic and magnetic properties of zigzag C2N-h2D nanoribbons: Edge and width effects. Chemical Physics Letters, 685, 363-370 (2017).

5. Zhenguang Shao; Qijia Gu; Xifeng Yang; Jiezhang; Yawei Kuang; Debao Zhang; Hailin Yu; Xuekun Kong; Jinfu Feng and Yushen Liu*Trap-assisted tunneling in AlGaN avalanche photodiodes. AIP ADVANCES, 7(6), 122202-122205 (2017).

6. Hailu Wang; Mingxing Wang; Cheng Qian; Xuekun Hong; Debao Zhang; Yushen Liu and Xifeng YangSpin thermoelectric effects in organic single-molecule devices. PHYSICS LETTERS A, 381(20), 1738-1744 (2017).

7. Xifeng Yang; Yawei Kuang; Hailin Yu; Zhenguang Shao; Jie Zhang; Jinfu Feng; Xiaoshuang Chen and Yushen LiuZigzag C2N nanoribbons with edge modifications as multi-functional spin devices. Physical Chemistry Chemical Physics, 19, 12538-12545 (2017).

8. Zhixing Gan; Zhihui Chen; Lizhe Liu; Lifang Zhang; Wenguang Tu and Yushen LiuHighly Effcient Solar-Driven Photothermal Performance in Au-Carbon Core-Shell Nanospheres. Solar RRL, 1, 1600032-1600039 (2017).

9. Xifeng Yang; Xilu Zou; Yawei Kuang; Zhenguang Shao; Jie Zhang; Xuekun Hong; Debao Zhang; Jinfu Feng; Xiaoshuang Chen and Yushen LiuAdatom-induced local reconstructions in zigzag silicene nanoribbons:Spin semiconducting properties and large spin thermopowers. Chemical Physics Letters, 667, 113-119 (2017).

10. Yushen Liu; Xueyi Shao; Tan Shao; Jiayi Zhang; Yawei Kuang; Debao Zhang; Zhenguang Shao; Hailin Yu; Xuekun Hong; Jinfu Feng; Xifeng Yang; Xiaoshuang Chen and XUefeng WangGate-enhanced thermoelectric effects in all-carbon quantum devices. Carbon, 109, 411-417 (2016).

11. Xifeng Yang; Yawei Kuang; Yushen Liu; Debao Zhang; Zhenguang Shao; Hailin Yu; Xuekun Hong; Jinfu Feng; Xiaoshuang Chen and Xuefeng WangCarbon-based molecular devices: Fano effects controlled by the molecule length and the gate voltage. Nanoscale, 8, 15712-15719 (2016).

12. Xuekun Hong, Yawei Kuang, Chen Qian, Yongmei Tao, Hailin  Yu, Debao Zhang, Yushen Liu, Jinfu Feng, Xifeng Yang* and Xuefeng WangAxisymmetric All-Carbon Devices with High-Spin Filter Efficiency, Large-Spin Rectifying, and Strong-Spin Negative Differential Resistance Properties. Journal of Physical Chemistry C, 120(1), 668-676 (2016).

13. Xifeng Yang; Hailu Wang; Yingshuang Chen; Yawei Kuang; Xuekun Hong; Yushen Liu; Jinfu Feng and Xuefeng WangGiant spin thermoelectric effects in all-carbonnanojunctions. Physical Chemistry Chemical Physics, 17, 22815-22822 (2015).

14. Xifeng Yang; Hailu Wang; Xuekun Hong; *Yushen Liu; *Jinfu Feng; *Xuefeng Wang; Changwen Zhang; Feng Chi and Mingsu SiTunable half-metallic properties and spin Seebeck effectsin zigzag-edged graphene nanoribbons adsorbedwith V atom or V-benzene compound. Organic Electronics, 24, 80-88 (2015).

15. Yushen Liu; Wenqian Zhou; Jinfu Feng and Xuefeng WangEnhanced spin thermoelectric effects in BN-embedded zigzaggraphene nanoribbons. Chemical Physics Letters, 625, 14-19 (2015).

16. Yushen Liu; Xue Zhang; Xifeng Yang; Xuekun Hiong; Jinfu Feng; Mingsu Si and Xuefeng WangSpin caloritronics of blue phosphorene nanoribbons. Physical Chemistry Chemical Physics, 17, 10462-10467 (2015).

17. Xifeng Yang; Wenqian Zhou; Xuekun Hong; Yushen Liu; Xuefeng Wang and Jinfu FengHalf-metallic properties, single-spin negative differential resistance,and large single-spin Seebeck effects induced by chemical dopingin zigzag-edged graphene nanoribbons. The Journal of chemical physics, 142, 024706-024716 (2015).

18. Xifeng Yang and Yushen LiuA photon-assisted single-spin quantum-dot heat engine. Superlattices and Microstructures, 75, 334-339 (2014).

19. Xifeng Yang; Yushen Liu; Jinfu Feng; Xuefeng Wang; Changwen Zhang and Feng ChiTransport properties of bare and hydrogenated zigzag silicene nanoribbons: Negative differential resistances and perfect spin-filtering effects. Journal of Applied Physics, 116, 124312-1243129 (2014).

20. Xifeng Yang; Yushen Liu; Jinfu Feng and Xuefeng WangLarge spin Seebeck effects in zigzag-edge silicene nanoribbons. AIP Advances, 4, 087116-087121 (2014).

21. Yushen Liu; Xue Zhang; Jinfu Feng and Xuefeng WangSpin-resolved Fano resonances induced large spin Seebeck effects in graphene-carbon-chain junctions. Applied Physics Letters, 104, 242412-242416 (2014).

22. Xifeng Yang; Yushen Liu; Xue Zhang; Liping Zhou; Xuefeng Wang; Feng Chi and Jinfu FengPerfect spin filtering and large spin thermoelectric effects in organic transition-metal molecular junctions. Physical Chemistry Chemical Physics, 16, 11349-11355 (2014).  

23. Mingxing Zhai; Xuefeng Wang; Vasilopoulos, P.; Yushen Liu*; Raojun Dong; Liping Zhou; Yongjin Jiang and Wenlong YouGiant magnetoresistance and spin Seebeck coefficient in zigzag alpha-graphyne nanoribbons. Nanoscale, 6, 11121-11129 (2014).  

24. Xifeng Yang; Xue Zhang; Xuekun Hong; Yushen Liu; Jinfu Feng; Xuefeng Wang and Changwen ZhangTemperature-controlled giant thermal magnetoresistance behaviors in doped zigzag-edged silicene nanoribbons. RSC Advances, 4, 48539-48546 (2014).  

25. Yushen Liu; Xuefeng Wang and Feng ChiNon-magnetic doping induced a high spin-filter efficiency and large spin Seebeck effect in zigzag graphene nanoribbons. Journal of Materials Chemistry C, 1, 8046-8051 (2013).

26. Yushen Liu; Xifeng Yang; Xuekun Hong; Mingsu Si; Feng Chi and Yong GuoA high-efficiency double quantum dot heat engine. Applied Physics Letters, 103, 093901-093905 (2013).

27. Xuekun Hong; Xifeng Yang; Jinfu Feng and Yushen LiuTemperature-controllable spin-polarized current and spin polarization in a Rashba three-terminal double-quantum-dot device. Chinese Physics B, 22, 057306-057315 (2013).

28. Xifeng Yang and Yushen LiuPure spin current in a double quantum dot device generated by thermal bias. Journal of Applied Physics, 113, 164310-164313 (2013).

29. Yushen Liu; Xifeng Yang; Feng Chi; Mingsu Si and Yong GuoA proposal for time-dependent pure-spin-current generators. Applied Physics Letters, 101, 213109-213113 (2012).

30. Xifeng Yang; Yushen Liu and Ying FuOptical absorptions in AlxGa1-xAs/GaAs quantum well for solar energy application. Journal of Applied Physics, 112(5), 054314 (2012).  

31. Yushen Liu; Xifeng Yang; Xuekun Hong and Feng ChiA single-spin-current thermal generator. Journal of Applied Physics, 112, 023710-023716 (2012).

32. Yushen Liu; Xuekun Hong; Jinfu Feng and Xifeng YangFano-Rashba effect in thermoelectricity of a double quantum dot molecular junction. Nanoscale Research Letters, 6, 618-627 (2011).

33. Yushen Liu; Hsuan-Te Yao and Yuchang ChenAtomic-Scale Field-Effect Transistor as a Thermoelectric PowerGenerator and Self-Powered Device. Journal of Physical Chemistry C, 115, 14988-14996 (2011).

34. Yushen Liu; Debao Zhang; Xifeng Yang; Jinfu FengThe role of Coulomb interaction in thermoelectric effects of an Aharonov-Bohm interferometer. Nanotechnology, 22, 225201-225209 (2011).

35. Yushen Liu and Yuchang ChenSingle-molecule refrigerators: Substitution and gate effects. Applied Physics Letters, 98, 213103-213105 (2011).

36. Yushen Liu; Bailey C. Hsu, and Yuchang ChenEffect of Thermoelectric Cooling in Nanoscale Junctions. Journal of Physical Chemistry C, 115, 6111-6125 (2011).

37. Yushen Liu; FengChi; Xifeng Yang and Jinfu FengPure spin thermoelectric generator based on a rashba quantum dot molecule. Journal of Applied Physics, 109, 053712-053716 (2011).

38. Yushen Liu and Yuchang ChenCounting statistics in nanoscale junctions. Physical Review B, 83, 035401-035407 (2011).

39. Yushen Li and Xifeng YangEnhancement of thermoelectric efficiency in a double-quantum-dot molecular junction. Journal of Applied Physics, 108(2), 023710-023713 (2010).

40. Yushen Liu and Xifeng YangEnhancement of thermoelectric efficiency in a double-quantum-dot molecular junction. Journal of Applied Physics, 108(2), 023710-023713 (2010).

41. Xifeng Yang and Yushen LiuMultiple-path Quantum Interference Effects in a Double-Aharonov-Bohm Interferometer. Nanoscale Research Letters, 5(7), 1228-1235 (2010).

42. Xifeng Yang and Yushen LiuSpin-flip effects in a parallel-coupled double quantum dot molecule. Superlattices and Microstructures, 48(1), 31-40 (2010).

43. Yushen Liu  and Yuchang Chen, Seebeck coefficient of thermoelectric molecular junctions: First-principles calculations, Phys. Rev. B, 2009, 79: 193101.

44. Yushen Liu, Yiren Chen, and Yuchang Chen, Thermoelectric Efficiency in Nanojunctions: A Comparison between Atomic Junctions and Molecular Junctions, Acs Nano, 2009, 3: 3497-3504.

45. Yushen Liu, Xifeng Yang, Xihui Fan, amd Jieyun Xia, Transport properties of a Kondo dot with a larger side-coupled noninteracting quantum dot, JPCM, 2008, 20: 135226.

46. Yushen Liu, Hao Chen, and Xifeng Yang, Transport properties of an Aharonov–Bohm ring with strong interdot Coulomb interaction, JPCM, 2007, 19: 246201.

47. Yushen Liu, Hao Chen, Xi Hui Fan, and Xifeng Yang, Inelastic transport through a single molecular dot in the presence of electron-electron interaction, Phys Rev B, 2006, 73: 115310.

48. 杨希峰,况亚伟,张德宝,刘玉申,钱 斌, wxAMPS仿真软件在应用型本科“薄膜太阳能电池”课程中的应用,教育教学论坛,2016 11 月,第 44 期,页码:416-418.

49. 刘玉申,况亚伟,马玉龙,张 雪,周雯倩,冯金福,分子计算实验室构建及创新培养模式研究,常熟理工学报,201411月,第6期,页码:43-45

50. 刘玉申, 况亚伟, 马玉龙, 杨希峰, 徐 竞, 邢进华,“光电电路课程设计”的教学研究与实践,中国电力学报,2013年第23期,页码:62-63.

51. 刘玉申,杨希峰,激发学生学习主观能动性的几点建议-以大学物理教学为例,中国电力学报,2010年第34期,页码:100-101.

已授权的发明专利:

1. 杨希峰, 尹兴锐, 李南星, 张德宝, 杨宏, 刘玉申, 况亚伟, 顾利萍, 孙苏徽, 赵明江. 一种光谱可控的CdSe量子点制备方法.专利号:ZL 2017 1 0117670.5, 授权公告日:2019-03-01.

2. 况亚伟, 马玉龙, 倪志春, 魏青竹, 杨希峰, 朱丹凤, 刘玉申, 冯金福. 环形深层绝缘结构的石墨烯硅基太阳能电池及其制备方法.专利号:ZL 2016 1 1062791.6, 授权公告日:2017-12-12

3. 况亚伟, 刘玉申, 马玉龙, 徐竞, 沈小鹏, 冯金福 一种石墨烯双结太阳能电池及其制备方法. 专利号:ZL 2014 1 0624955.4, 授权公告日:2017-02-15.

4. 况亚伟,刘玉申,马玉龙,薛春荣,徐竞. 一种石墨烯硅基太阳能电池及其制造方法. 专利号:ZL 2014 1 0081157.1, 授权公告日:2016-06-08.

著作与获奖:

1.2015年江苏省普通高校本专科优秀毕业设计二等奖-“石墨烯条带与碳链组成的混杂系统中的热自旋效应研究”

2.2015年江苏省普通高校本专科团队优秀毕业设计- “单层石墨烯纳米带电学,磁学和热输运研究”

3.《电工电子技能实训教程》,顾涵、夏金威、刘玉申,西安电子科技大学出版社,2017

4.氮化硅/石墨烯复合结构在晶 硅太阳能电池的中抗PID效应的应用研究 三等奖(高校自然科学研究类) 江苏省教育厅 2018.8 排名:第二