黄海鸣 讲师
教育背景 博士
研究领域 理论物理、凝聚态物理
研究方向 多尺度计算方法、第一性原理计算、声子极化激元、拉曼张量、气敏传感器理论,
场致电子发射理论、计算材料学、高性能计算
电子邮箱 huanghm@gzhu.edu.cn
所在系所 物理与材料科学学院 物理系 新型信息功能材料研究中心
个人主页 https://webofscience.clarivate.cn/wos/author/record/G-1441-2019
https://orcid.org/0000-0001-7621-0790
https://www.researchgate.net/profile/Haiming-Huang-4
▍个人简介
学习经历
2009年8月-2014年7月 中山大学理论物理博士(导师:李志兵教授)
2005年8月-2009年7月 中山大学物理学学士,辅修汉语言文学
2015年6月-2015年7月 英国哈璀超算中心访问
工作经历
2020年7月-至今 广州大学物理与材料科学学院 讲师,硕士生导师
2019年10月-2020年6月 广州大学物理与电子工程学院 讲师
2017年5月-2019年9月 广州大学智能制造工程研究院 讲师
2014年8月-2017年4月 中山大学国家超级计算广州中心 应用软件工程师
荣誉获奖
广州市高层次人才优秀专家,2020年
广州大学“课程思政”优秀教学案例一等奖(排名第一),2024年
研究范式:
高性能计算驱动的人工智能
目前的研究方向:
(1)低维材料的拉曼张量与声子极化激元研究
(2)表面纳米结构及其电磁性质的原子尺度调控
(3)微纳结构表面界面的润湿、气敏机制
(4)计算物理应用的开发、改进及高性能计算
招生:
研究生:招收物理学(学硕)、材料工程(专硕)的硕士生。
本科生:欢迎及早加入本组进行大创项目科研训练、毕业设计等。
有意者请通过Email联系。
▍担任主要课程
本科生课程:计算物理基础,并行程序开发,电磁学,C语言程序设计,大学物理,大学物理实验
研究生课程:固体理论,第一性原理计算,纳米材料与技术
▍主持课题
科研:
1. 激光诱导复合光响应表面可逆润湿转变的多尺度模拟研究,国家自然科学基金青年科学基金(24万元),2021-2023,主持
2. 气候和生态环境变化模拟与预测示范应用(所属项目:地球系统模式的改进、应用开发和高性能计算),科技部国家重点研发计划课题(1050万元),2016-2020,主持
3. 二维过渡金属碳化物拉曼性质的受力调控机制研究,广州市基础与应用基础研究项目(5万元),2021-2023,主持
4. 基于拉曼光学转变表征的MXene气敏特性的高通量第一性原理计算研究,广州市教育局高校科研项目(2万元),2025-2026,主持
5. 火星表面金属离子基氯氧化物的多场耦合失稳机制研究,行星科学与超算联合实验室开放课题重点项目(5万元),2024-2026,主持
6. 广州大学引进人才启动经费项目(20万元),2017-2020,主持
教研教改:
1. 教育数智化转型背景下《计算物理基础》课程的改革探究与实践,广州大学教育教学改革项目(0.35万元),2025-2026,主持
▍主要论文
1. Yu Zhang#, Zhiman Zhang#(本科生:张芷蔓), Weiliang Wang, Shaolin Zhang and Haiming Huang*, Quantum-mechanical understanding on structure dependence of image potentials of single-walled boron nitride nanotubes, Chinese Physics B, 33 128501 (2024).(单壁氮硼纳米管的镜像势)
2. Shuai Zhang#, Yiyun Ling#(本科生:凌艺纭), Yu Zhang, Weiliang Wang, Shaolin Zhang* and Haiming Huang*, Tuning the work functions via topology and halogen element adsorbates: a first-principles investigation on MBene nanoribbons, Materials Science and Engineering B, 305 , 117421 (2024).(以结构和卤族元素吸附调控MBene纳米带的功函数)
3. Fangrong Qin, Fang Chen, Peng Huang, Xuekun Yang, Deyu Kong, Yuanxin Jiang, Yubin Lin, Ziyuan Xie, Songjie Deng, Jiayi Lin, Yuxi Guo*, Haiming Huang* and Shaolin Zhang*, Exploring the gas sensing potential of BiOBr0.9I0.1: A highly responsive sensor for ammonia detection at room temperature, Materials Science and Engineering B, 305, 117402 (2024).(室温下BiOBr0.9I0.1的氨气气敏特性)
4. Peng Huang, Fangrong Qin, Deyu Kong, Xuekun Yang , Ziping zheng, Songjie Deng, Weiliang Wang, Haiming Huang* and Shaolin Zhang*, Enhanced room temperature ammonia sensing using Ti2VC2Tx Double-Transition-Metal MXenes: Experimental and theoretical insights, Chemical Physics Letters, 843, 141233 (2024). (从实验和理论视角分析室温下Ti2VC2Tx的氨气气敏特性)
5. Deyu Kong, Peng Huang, Fangrong Qin, Jun Liu, Jiayi Lin, Yubin Lin, Haiming Huang, Weiliang Wang, Chuang Han* and Shaolin Zhang*, Exploring monolayer Ta4C3Tx MXene for quick ammonia detection at room temperature, Materials Letters, 363, 136250 (2024).(Ta4C3Tx MXene的室温气敏特性)
6. Zhicheng Li, Yu Zhang, Zhongbin Pan*, Xu Fan, Peng Li, Haiming Huang*, Weiliang Wang, Weidong Chen, Jinjun Liu and Weiping Li*, Optimizing the gradient of electric field distribution and inhibiting charge injection in multilayer dielectric films for high capacitive performance, Journal of Materials Chemistry A, 12, 3616 (2024).(以优化电场梯度及抑制电荷注入提升多层介电薄膜的电容性能)
7. Maoqiao Xiang, Zihan Shen, Jie Zheng, Miao Song, Qiya He, Yafeng Yang, Jiuyi Zhu, Yuqi Geng, Fen Yue, Qinghua Dong, Yu Ge, Rui Wang, Jiake Wei, Weiliang Wang, Haiming Huang, Huigang Zhang*, Qingshan Zhu* and Chuanfang John Zhang, Gas-phase synthesis of Ti2CCl2 enables an efficient catalyst for lithium-sulfur batteries, The Innovation, 5, 100540 (2024). (Ti2CCl2的气相合成及其在锂-硫电池应用中的高效催化作用)
8. Zhicheng Li#, Yu Zhang#, Zhongbin Pan*, Xu Fan, Hao Wang, Peng Li, Haiming Huang*, Weiliang Wang, Jinjun Liu and Jiwei Zhai*, Superior capacitive performance achieved in wide HOMO–LUMO gap cyanoethyl cellulose nanocomposites via forming a built-in electric field, Journal of Materials Chemistry C, 11, 16623 (2023). (氰乙基纤维素纳米复合材料的电容性能)
9. Haiming Huang*, Mingquan Ding, Yu Zhang, Shuai Zhang, Yiyun Ling, Weiliang Wang* and Shaolin Zhang*, How organic switches grafting on TiO2 modifies the surface potentials: theoretical insights, RSC Advances, 13, 15148 (2023).(有机开关/无机半导体氧化物复合表面的势垒)
10. Kang Lei, Haiming Huang, Xu Jia Liu, Weiliang Wang, Kai Guo, Ren Kui Zheng and Han Li*, Ultra-Low Lattice Thermal Conductivity Enables High Thermoelectric Properties in Cu and Y Codoped SnTe via Multi-Scale Composite Nanostructures, ACS Sustainable Chemistry & Engineering, 11, 7541 (2023).(Cu和Y共掺杂SnTe的高热电性能)
11. Haiming Huang, Huijun Liu, Mingquan Ding, Weiliang Wang* and Shaolin Zhang*, Polarization-resolved and helicity-resolved Raman spectra of monolayer XP3 (X=Ge and In), Physical Chemistry Chemical Physics, 25, 2366 (2023).(单层GeP3与InP3的偏振拉曼和旋光拉曼光谱)
12. Zelin Ma, Jun Ge*, Wanjun Chen, Xucheng Cao, Shanqing Diao, Haiming Huang*, Zhiyu Liu, Weiliang Wang and Shusheng Pan*, Analog Tunnel Memory Based on Programmable Metallization for Passive Neuromorphic Circuits, ACS Applied Materials & Interfaces, 14, 47941 (2022).(基于可编程金属的模拟隧穿忆阻器)
13. Mingquan Ding#, Huijun Liu#(本科生:刘卉珺), Hongtai Jiang, Mingde Huang, Xuexin Tan, Yanghai Li, Weiliang Wang, Shaolin Zhang and Haiming Huang*, Raman spectrum of MXene Ti2C under planar symmetrical strain: First-principles calculations, Journal of Raman Spectroscopy, 53, 1915 (2022).(平面对称性应变下二维碳化钛的拉曼光谱)
14. Yiwen Yin(本科生:尹奕雯), Huanjun Chen, Weiliang Wang* and Haiming Huang*, Polarization-Resolved and Helicity-Resolved Raman Intensity of Monolayer and Bilayer β‑InSe, Journal of Physical Chemistry C, 126, 11219 (2022).(单层和双层硒化铟的偏振拉曼和旋光拉曼光谱)
15. Haiming Huang, Weiliang Wang* and Shaolin Zhang*, Theoretical assessment of Raman spectra on MXene Ti2C: from monolayer to bilayer, Physical Chemistry Chemical Physics, 23, 19884 (2021).(二维碳化钛拉曼光谱的理论研究:从单层到双层)
16. Taoyan Mao, Haiming Huang, Dantong Liu, Xiaoqin Shang, Weiliang Wang and Liming Wang*, Novel cationic Gemini ester surfactant as an efficient and eco-friendly corrosion inhibitor for carbon steel in HCl solution, Journal of Molecular Liquids, 339, 117174 (2021).(阳离子双子酯基表面剂的抗腐蚀效率研究)
17. Jun Ge*#, Haiming Huang#, Zelin Ma, Weilong Chen, Xucheng Cao, Huaheng Fang, Jianfeng Yan, Zhiyu Liu, Weiliang Wang and Shusheng Pan*, A sub-500 mV monolayer hexagonal boron nitride based memory device, Materials and Design, 198, 109366 (2021).(单层氮化硼基忆阻器件研究)
18. Ziyue Rao#, Wenyi Liang#, Haiming Huang#, Jun Ge*, Weiliang Wang and Shusheng Pan*, High sensitivity and rapid response ultraviolet photodetector of a tetragonal CsPbCl3 perovskite single crystal, Optical Materials Express, 10, 1374 (2020).(四方相钙钛矿单晶对紫外线的高敏感和快速响应机制)
19. Haiming Huang, Weiliang Wang and Liming Wang*, Theoretical assessment of wettability on silane coatings: from hydrophilic to hydrophobic, Physical Chemistry Chemical Physics, 21, 8257 (2019).(有机硅修饰表面润湿性的理论评估)
20. Haiming Huang, Zhibing Li*, H. J. Kreuzer and Weiliang Wang*, Disintegration of graphene nanoribbons in large electrostatic fields, Physical Chemistry Chemical Physics, 16, 15927 (2014).(强场下石墨烯纳米带的结构失稳)
21. Haiming Huang, Zhibing Li*, Weiliang Wang* and H. J. Kreuzer, Electric field induced breaking down of graphene nanoribbons, Technical Digest - 2014 27th International Vacuum Nanoelectronics Conference, IVNC 2014, p 123-124, 2014.(电场诱导的石墨烯纳米带结构瓦解)
22. Haiming Huang, Zhibing Li and Weiliang Wang*, Electronic and magnetic properties of oxygen patterned graphene superlattice, Journal of Applied Physics, 112, 114332 (2012).(氧掺杂石墨烯超晶格的电磁性质调制)
23. Haiming Huang, Zhibing Li, Juncong She and Weiliang Wang*, Oxygen density dependent band gap of reduced graphene oxide, Journal of Applied Physics, 111, 054317 (2012).(还原氧化石墨烯带隙的氧密度依赖)
24. Haiming Huang, Zhibing Li, Weiliang Wang* and Guihua Chen, Image potential of C60: A density functional theory calculation, Journal of Vacuum Science & Technology B, 29, 021802 (2011).(C60的镜像势研究)
▍社会服务
担任国家科技专家库、广东省基础与应用基础研究基金项目和全国博士硕士学位论文评审专家。
为ACS Applied Materials & Interfaces, Surfaces and interfaces, Materials Science & Engineering B, Frontiers in Materials, Results in Physics, Spectrochimica Acta Part A, Steel Research International, Review of Scientific Instruments等期刊审稿。
▍出版专著/教材
▍专利授权