师资队伍

刘广

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刘广,男,汉族,湖南岳阳人,199407月生,博士、校聘副教授。2015年毕业于湖南师范大学物理与信息科学学院物理学专业,获学士学位,2018年毕业于湖南师范大学物理与电子科学学院凝聚态物理专业,获硕士学位,2023年毕业于南方科技大学理学院物理系物理学专业,获博士学位。2023年7月入职湖南科技大学物理与电子科学学院。

主讲课程:《普通物理学B1》、《普通物理学B2》等课程,

科学研究:主要从事低维纳米体系电子结构、电子输运性质以及拓扑材料的第一性原理计算等方面的研究,已在Phys. Rev. B、Appl. Phys. Lett.、Phys. Rev. Mater.、Carbon 等专业领域国际主流学术期刊上发表相关研究论文10 余篇。

1.近期承担的主要科研项目

(1) 参与国家自然科学基金委员会面上项目《二维Dirac电子材料纳米电极有机分子结界面构建与功能机理研究》(2018-01至2021-12,No. 11774085, 61万元);

(2)参与湖南省教育厅科研基金重点项目《Dirac电子材料纳米电极有机分子器件的构建与功能机理研究》,(2018-01至2020-08,No. 16A124,10万元)。

 

2.联系方式

邮箱:liug@hnust.edu.cn  办公室:知行楼A330

 

3.近期发表的主要科研论文

(1)Peiyao Qin, Guang Liu, Peng Wu, Hu XuDiverse degeneracy types in topological phonons: A perspective, Appl. Phys. Lett. 124, 030502 (2024).

(2)Peng Wu, Guang Liu, Xiangting Hu, and Hu Xu*. Paired charge-2Weyl-Dirac phonons in tetragonal crystals, Phys. Rev. B 108, 054305 (2023).

(3)Guang Liu, Zhongjia Chen, Peng Wu, and Hu Xu*. Triple hourglass Weyl phonons, Phys. Rev. B 106, 214308 (2022);

(4) Guang Liu, Zhenqiao Huang, Zhongjia Chen, Yuanjun Jin, Changchun He, and Hu Xu*. Coexistence of charge-2 Dirac and Weyl phonons in chiral space groups, Phys. Rev. B 106, 054306 (2022);

(5)Zhongjia Chen, Zijuan Xie, Yuanjun Jin, Guang Liu, and Hu Xu*. Hybrid nodal-ring phonons with hourglass dispersion in AgAlO2, Phys. Rev. Mater. 6, 034202 (2022);

(6)Wence Ding, Guang Liu, Xiaobo Li, and Guanghui Zhou*. Tuning Exponential Decay Factor in Oligophenylene Molecular Junctions with Graphene Nanoribbon Electrodes, Chin. J. Chem. Phys. 36, 717 (2022).

(7) Guang Liu, Yuanjun Jin, Zhongjia Chen,and Hu Xu*. Symmetry-enforced straight nodal-line phonons, Phys. Rev. B 104, 024304 (2021);

(8)Chunxia Jia, Guang Liu, Wence Ding, Benliang Zhou, Xiaoying Zhou, and Guanghui Zhou*. Electronic transport decay rule for junction of oligophenylene molecules sandwiched between phosphorene nanoribbons, J. Phys. D. Phys. 53, 105302 (2020);

(9)Ao Zhang, Liemao Cao, Guang Liu, Ziran Liu, Wenhu Liao, and Guanghui Zhou*. The spintronic functionality in a junction of naphthalene diimide with different molecule-graphene linkers, J. Magn. Magn. Mater. 471, 555-560 (2019).

(10) Liemao Cao, Xiaobo Li, Chunxia Jia, Guang Liu, Ziran Liu, and Guanghui Zhou*. Spin-charge transport properties for graphene/graphyne zigzag-edged nanoribbon heterojunctions: A first-principles study, Carbon 127, 519-526 (2018); 

(11)Liemao Cao, Xiaobo Li, Guang Liu, Ziran Liu, and Guanghui Zhou*. The spin-charge transport properties for a graphene-based molecular junction: A first-principles study, Org. Electron. 48, 357-364 (2017). 

(12)Liemao Cao, Xiaobo Li, Guang Liu, Ziran Liu, and Guanghui Zhou*. Effect of amino on spin-dependent transport through a junction of fused oligothiophenes between graphene electrodes, Chem. Phys. 488, 17-21 (2017);

(13)Benlaing Zhou, Benhu Zhou, Guang Liu, Dan Guo, and Guanghui Zhou,Spin-dependent transport and current-induced spin transfer torque in a disordered zigzag silicene nanoribbon, Physica B. 500, 106 (2016);

(14)Pan Wang, Ma Zhou, Guang Liu, Yiman Liu, Meng-Qiu Long, and Guanghui Zhou, Spin- and valley-dependent transport properties for metal-silicene-metal junctions, Eur. Phys. J. B 88, 243 (2015).