洪爱俊

发布者:ldxy发布时间:2023-09-19浏览次数:770

姓名:洪爱俊

学位/职称:博士/副教授

研究领域:计算凝聚态物理中的电子与声子结构、电与热输运

个人简介

19832月出生, 江苏建湖人,2006年,2009年和2016年分别获得盐城师范学院、郑州大学和南京大学的物理学学士(师范类)、生物物理学硕士和物理学博士学位。主持国家青年基金项目一项,以第一作者或通讯作者身份在JMCAJMCCJPCCAPLSRSCI期刊发表学术论文若干篇。

主要专注于计算物理学研究,主要研究内容:

一、计算凝聚态物理中材料的电子结构、声子结构、电输运和热输运。

二、计算凝聚态物理中超导和拓扑绝缘体材料。

三、热电、析氢、光伏、储能等能源材料的理论预测和设计。

 

联系方式:

电子邮箱:6312886haj@163.com

办公地址:实验大楼东101-02

 

教育背景:

博士物理学南京大学2016

硕士生物物理学郑州大学2009

学士物理学盐城师范学院2006

 

工作经历:

2016-至今:教师物理与通信电子学院江西师范大学

2009- 2016教师物理与水电工程系甘肃民族师范学院

 

科研项目:

(1)     几种half-Heusler合金-SnSe异质结设计及其热电输运性质的理论研究(青年科学基金项目),国家自然科学基金委员会2018立项主持人,已结题

 

学术成果:

第一作者或通讯作者文章

1.       Re-understanding of the deformation potential constant in the single crystal silicon, Materials Today Communications, 2024, 38: 108316.

2.       Interstitial doping promotes the hydrogen evolution activity of the CrI3 monolayer, Computational Materials Science, 2023, 226(112189).

3.       Ultralow thermal conductivity in quaternary compound Ag2BaSnSe4 due to square-cylinder cage-like structure with rattling vibrationApplied Physics Letters, 2021, 118(143903).

4.       High-Throughput Screening of Quaternary Compounds and New Insights for Excellent Thermoelectric Performance, The Journal of Physical Chemistry C, 2021, 125(45): 24796–24804.

5.       Doping engineering: Highly improving hydrogen evolution reaction performance of monolayer SnSe, International Journal of Hydrogen Energy, 2021, 46(76): 37907-37914.

6.       Effects of biaxial strain and local constant potential on electronic structure of monolayer SnSe, Physica B: Physics of Condensed Matter, 2021, 618(1): 413177.

7.       Influence of different exchange–correlation potentials on twisted structures of bilayer XS2 (X=Mo, Cr), Computational Materials Science, 2021, 188(1): 110205.

8.       Prediction for structure stability and ultrahigh hydrogen evolution performance of monolayer 2H-CrS2, Materials Today Communications, 2020, 25: 101707.

9.       Quaternary compounds Ag2XYSe4 (X=Ba, Sr; Y=Sn, Ge) as novel potential thermoelectric materials, Journal of Physics D: Applied Physics, 2020, 53(11): 115302.

10.    Large enhancement of infrared absorption due to trimer comprised of doping-N and S-S divacancies in the imperfect monolayer MoS2: A first-principles study, Applied Surface Science, 2019, 473: 6-10.

11.    Unusual consequences of donor and acceptor doping on the thermoelectric properties of the MgAg0.97Sb0.99 alloy, Journal of Materials Chemistry A, 2018, 6(6): 2600-2611.

12.    Novel p-type thermoelectric materials Cu3MCh4 (M=V, Nb, Ta; Ch=Se, Te): high band-degeneracy,Journal of Materials Chemistry A, 2017, 5(20): 9785-9792.

13.    Predicting high thermoelectric performance of ABX ternary compounds NaMgX (X = P, Sb, As) with weak electron-phonon coupling and strong bonding anharmonicity, Journal of Materials Chemistry C, 2016, 4(15): 3281-3289.

14.    Full-scale computation for all the thermoelectric property parameters of half-Heusler compounds, Scientific Reports, 2016, 6: 22778.

15.    Optimizing the thermoelectric performance of low-temperature SnSe compounds by electronic structure design, Journal of Materials Chemistry A, 2015, 3(25): 13365-13370.

16.    Anomalous transport and thermoelectric performances of CuAgSe compounds, Solid State Ionics, 2014, 261: 21-25.

 

招生要求:

崇尚自由,践行平等, 热爱科学,注重交叉, 不拘于物理,不限于基础薄弱。