姓名

卢建夺

职称

教授

性别

男

联系电话

18062602482

电子邮件

L_j316@163.com

通信地址

学术兼职

多个知名国际期刊的审稿人

一级学科

物理学

二级学科

凝聚态物理

研究方向

1 纳米电子器件与量子器件；2 半导体纳米结构电、热输运；3 低维半导体结构的量子调控；4 半导体自旋电子学; 5 石墨烯器件中电子输运；6 第一性原理计算。

在以上研究方向上共发表SCI收录论文50余篇。

个人简历

2009.9-2012.6 华中科技大学物理学院攻读博士学位，

2006.7至今 武汉科技大学理学院应用物理系工作，

2003.9-2006.6 华中科技大学物理学院攻读硕士学位，

1999.9-2003.6 鲁东大学物理与电子技术学院攻读学士学位。

主要著作

(1) Effect of an in-plane magnetic field and a δ-doping on the electron transport in a nonmagnetic heterostructure, Physics Letters A 380 (2016) 1668–1671

(2) Transportpropertiesinamonolayergraphenemodulatedbythe realisticmagnetic field andtheSchottkymetalstripe, Physica E 83 (2016) 345–348

(3) A bias-tunable electron-spin filter based on a two-dimensional electron gas modulated by ferromagnetic-Schottky metal stripes, Physics Letters A 375 (2011) 1534-1537.

(4) The effects of Dresselhaus and Rashba spin-orbit interactions on the electron tunneling in a non-magnetic heterostructure, Applied Surface Science 256 (2010) 4027-4030.

(5) Effect of the delta-doping on the electron transport in a structure modulated by the magnetic barriers, Solid State Communications 149 (2009) 2225-2227.

主要科研项目

1.国家自然科学基金青年项目，11304236，外场和自旋轨道耦合调制下非磁纳米结构中电子输运机理研究，2014/01-2016/12，25万元，已结题，主持

2.冶金工业过程系统科学湖北省重点实验室项目，Y201701，材料科学研究中电子自旋输运的数值模拟，2018/01-2019/12, 2万元，在研，主持

3.冶金工业过程系统科学湖北省重点实验室项目，Y201513，非磁复杂系统中电子输运的建模与分析, 2015/01-2017/12，1万元，已结题，主持

4.冶金工业过程系统科学湖北省重点实验室项目，Y201308，纳米系统中电子输运的建模与分析，2013/01-2014/12，1万元，已结题，主持

5.湖北省自然科学基金面上项目，2014CFB801，含铜合金中纳米相的控制及断裂机制，2015/01-2016/12，3万元，已结题，参加

6.国家自然科学基金理论物理专项，11447128，利用气体等离子体中荧光辐射的增强对太赫兹波进行远程探测的机理研究，2015/01-2015/12，5万元，已结题，参加

7.湖北省教育厅高校产学研合作重点项目，C2010021，长寿命挤压轮用钢的开发及产业化，2011/01-2014/12，5万元，已结题，参加

8.国家自然科学基金面上项目，60476011，多孔低介电常数薄膜制备及其表面等离子增强保护和热机械性能研究，2005/01-2007/12，24万元，已结题，参加

部分论文

以第一作者发表的部分论文：

(30) Effect of the delta-doping on the magnetoresistance effect in a magnetically modulated nanostructure, International Journal of Modern Physics B,Vol. 32 (2018) 1850260

(29) Spin-polarized transport of the electron in a device with a Schottky metal stripe and a delta-doping, International Journal of Modern Physics B, Vol. 32 (2018) 1850186

(28) The effects of the barrier and delta-doping on the electron tunneling in a nonmagnetic heterostructure, International Journal of Modern Physics B Vol. 29, No. 23 (2015) 1550165

(27) Electron transport in a non-magnetic nanostructure with spin-orbit interactions and delta-doping, Materials Science in Semiconductor Processing 27 (2014) 785-789,

(26) Transport properties in a grapheme-based magnetic nanostructure modulated by a Schottky metal stripe, Materials Science in Semiconductor Processing 22 (2014) 59-63

(25) Transport in a realistic magnetic field modulated nanostructure with the delta-doping，Physics Letters A 378 (2014) 286-289

(24) Spin filtering in a magnetic nanostructure with the delta-doping, Materials Science in Semiconductor Processing 16 (2013) 1580-1583

(23) Magnetoresistance effect in a graphene modulated by magnetic-electrical barriers, Vaccum 96 (2013) 22-26

(22) The electron transport in a nanostructure modulated by the magnetic field and the delta-doping, Modern Physics Letters B 27 (2013) 1350175-1350184

(21) The electron transport properties in a three-barrier heterostructure modulated by the in-plane magnetic field, Superlattices and Microstructures 54 (2013) 54-60.

(20) The electron transport properties in a three-barrier structure based on monolayer graphene, Materials Science in Semiconductor Processing, 16 (2013) 1008-1013.

(19) Electron transport in a monolayer graphene modulated by ferromagnetic–Schottky metal stripes, Superlattices and Microstructures 60 (2013) 217-223.

(18) Effects of a ferromagnetic metal stripe and a Schottky metal stripe on the electron transport in a nanostructure, Vacuum 86 (2012) 1041-1044.

(17) Spin-dependent electron transport in a nonmagnetic nanostructure with both Dresselhaus and Rashba spin-orbit terms, Superlattices and Microstructures, 51 ( 2012) 1-8.

(16) Spin polarization in a two-dimensional electron gas modulated by

ferromagnetic and Schottky metal stripes, Microelectronics Reliability, 51 (2011) 1123-1126.

(15) Ballistic electron transport in a magnetic nanostructure periodically modulated by the delta-doping, Physica E 43 (2011) 901-904.

(14) Spin-dependent electron transport in a magnetic nanostructure with the δ-doping, Physics Letters A 374 (2010) 2270-2273.

(13) The effect of the periodic bias on the electron transport in a magnetic quantum structure, Microelectronic Engineering 87 (2010) 216-220.

(12) Spin-dependent resonant tunneling in a periodic non-magnetic heterostructure with spin–orbit effects, Physics Letters A 374 (2010) 3341-3345.

(11) The bias- and temperature-dependent electron transport in a magnetic nanostructure, Applied Surface Science 255 (2009) 3829-3832.

(10) Effect of the delta-doping on the electron transport in an antiparalleldouble delta-magnetic-barrier nanostructure, Applied Surface Science 255 (2009) 7348-7350.

(9) Electron-spin polarization in a nanostructure modulated by the periodic bias, Physica E 41 (2009) 1315-1318.

(8) Bias-tunable electron transport properties in a nanostructure with two parallel-magnetic barriers, Solid State Communications 145 (2008) 271-274.

(7) The effect of the bias on the electron transport properties in a magnetic double-barrier nanostructure, Solid State Communications 147 (2008) 242-245.

(6) The conductance and magnetoresistance effect in a periodically magnetically modulated nanostructure, Microelectronics Journal 39 (2008) 1576-1579.

(5) Phonon transport and thermal conductivity in a dielectric quantum waveguide, Solid-State Electronics 52 (2008) 37-43.

(4) The magnetoresistance effect in a nanostructure with the periodic magnetic barriers, Applied Surface Science 254 (2008) 3939-3942.

(3) The electron transport characters in a nanostructurewith the periodic magnetic-electric barriers, Chinese Physics 16 (10) (2007) 3080-3087.

(2) The effect of periodic magnetic–electric barriers on electron transport in a nanostructure, Solid State Communications 141 (2007) 61-64.

(1) Phonon Transport and Thermal Conductivity in a Four-Terminal Structure, Commun. Theor. Phys. 46 (2006) 568-572.

主要获奖情况

1. 2008年武汉科技大学优秀班主任

2. 2009年武汉科技大学教学优秀奖

3. 2010年武汉科技大学感动理学院人物提名奖

4. 2009、2010年度考核优秀

5. 2010年华中科技大学硕博士学术年会论文三等奖

6. 2011年武汉科技大学教学优秀奖

7. 2012年武汉科技大学理学院青年教师讲课比赛三等奖

8. 2013年指导本科毕业论文优秀奖

9. 2016年湖北省自然科学三等奖