胡凯歌

作者: 时间:2025-04-20 点击数:

胡凯歌 教授

所属学院:

物理与光电工程学院

导师类别:

硕士生导师

科研方向:

低维量子材料的理论及计算研究

联系方式:

hukaige[at]gdut.edu.cn

硕士招生学院:

物理与光电工程学院





个人简述

(300)

胡凯歌,博士,副教授,博士后合作导师。北京大学博士后、得克萨斯大学奥斯汀分校访问学者。主要通过凝聚态理论方法或第一性原理计算方法研究低维量子材料的物理性质,目前感兴趣的包括拓扑电子态、超导机理及量子磁性等。在Science AdvancesPhysical Review Letters等国际期刊共发表论文30多篇。



学科领域

80501材料物理与化学;0803光学工程;085408光电信息工程;0809电子科学与技术



教育背景

20099-20127 香港城市大学物理及材料科学系,计算凝聚态物理博士

20059-20078月 香港大学物理系,理论凝聚态物理硕士

20019-20056 华南师范大学物理系,物理学学士




工作经历

20163- 广东工业大学物理与光电工程学院,副教授,硕士生导师,博士后合作导师

20191-12月 德克萨斯大学奥斯汀分校物理系,访问学者

20161-2月 北京大学物理学院量子材料与科学中心,访问学者

20131-201512月 北京大学物理学院量子材料与科学中心,博士后

201210-12月 北京大学物理学院量子材料与科学中心,访问学者

20095-7月 香港城市大学,助理研究员

20079-20094月 中科院理化技术研究所,助理研究员



主要荣誉

20166月 第九届计算纳米科学与新能源国际研讨会计算创新奖青年奖

201010月 香港城市大学学术优异奖

20042月 全国青少年物理化学大赛总决赛大学物理组唯一特等奖

200212月 一等国家奖学金



主要论文

ORCID: https://orcid.org/0000-0001-6413-775X

Google Scolar: https://scholar.google.com/citations?user=9GYekcUAAAAJ&hl=en


[30] Y. Wang, K. Hu, and P. Min, Prediction of high-temperature superconductors with Tc up to 214.3 K in Mg-Zr-H ternary hydrides, Materials Today Physics 53, 101695 (2025).

[29] Z.-G. Chen, C. Lou, K. Hu, and L.-K. Lim, Fractal surface states in three-dimensional topological quasicrystals, Phys. Rev. Research 6, 043054 (2024).

[28] H. Du, K. Hu, C. Wang, H. Li, G. Xu, L. Yu, J. Cho, and Y. Jia, Spin preservation of a Ni adatom on amorphous graphene, Phys. Rev. B 109, 075425 (2024).

[27] C.-Y. Peng, B. Wang, L.-F. Yuan, K Hu, G. Chen, H.-Y. Wu, Y.-H. Hu, and Y.-H. Jin, Six- and five-coordinated Cr3+ in Ga2GeO5 invokes tunable broadband near-infrared emission toward night-vision applications, Rare Met. (2023).

[26] L. Han, Z. Cao, M. Pan, K. Hu, Z. Huang, J. Wang, Y. Zhao, and H. Deng, The effect of antisite defects on the mechanical and dynamic stability of Nb3Al, J. Phys.: Condens. Matter 35, 435401 (2023).

[25] Z. Guo, K. Hu, J. Su, J. Chen, H. Dong, M. Pan, Z. Nie, and F. Wu, Tunable electronic properties and negative differential resistance effect of the intrinsic type-III ZrS2/WTe2 van der Waals heterostructure, Applied Surface Science 611, 155644 (2023).

[24] S. Guo, C. Li, Z. Nie, X. Wang, M. Wang, C. Tian, X. Yan, K. Hu, and R. Long, Tensile Strain-Dependent Ultrafast Electron Transfer and Relaxation Dynamics in Flexible WSe2/MoS2 Heterostructures, J. Phys. Chem. Lett. 10920 (2023).

[23] H. Yang, W. Zhao, E. Song, K. Hu, H. Zhang, R. Yun, H. Huang, J. Zhong, Y. Li, and X. Li, Efficient Visible Light Charging for Rare Earth‐Free Persistent Phosphor, Advanced Optical Materials 10, 2102496 (2022).

[22] J. Su, J. Chen, M. Pan, K. Hu, M. Wen, X. Xing, Z. Tang, F. Wu, Z. Nie, and H. Dong, Tuning the electronic properties of HfSe2/PtSe2 heterostructure using electric field and biaxial strain., SciSin-Phys Mech Astron 51, 087312 (2021).

[21] H. Huang, W. Zhao, H. Yang, X. Zhang, J. Su, K. Hu, Z. Nie, Y. Li, and J. Zhong, In situ synthesis of blue-emitting bromide-based perovskite nanoplatelets towards unity quantum efficiency and ultrahigh stability, J. Mater. Chem. C 9, 5535 (2021).

[20] J. Chen, S. Guo, D. Lin, Z. Nie, C.-C. Huang, K. Hu, C. Wang, F. Zhang, W. Zhao, and W. Zhang, Ultrafast nonequilibrium dynamic process of separate electrons and holes during exciton formation in few-layer tungsten disulfide, Physical Chemistry Chemical Physics 23, 7135 (2021).

[19] Z. Cao et al., Phase transformation and mechanical stability of niobium aluminide (Nb3Al) induced by high pressures, Journal of Alloys and Compounds 869, 159278 (2021).

[18] Z. Cao, M. Pan, K. Hu, Z. Huang, Y. Lv, S. Wen, Y. Zhao, and H. Deng, Effect of titanium on the precipitation behaviors of transmutation elements in tungsten-titanium alloys from first-principles calculations, Fusion Engineering and Design 158, 111673 (2020).

[17] S. Wen, K. Hu, M. Pan, Z. Huang, Z. Cao, Y. Lv, Y. Zhao, and H. Deng, Effect of transmutation elements Re and Ta on the vacancy formation and dissociation behaviors in W bulk, Computational Materials Science 179, 109624 (2019).

[16] Y. Lv, K. Hu, Z. Huang, Z. Cao, S. Wen, Y. Zhao, M. Pan, and H. Deng, Effect of tungsten on the vacancy behaviors in Ta–W alloys from first-principles calculations, Solid State Communications 306, 113767 (2019).

[15] K. Han et al., Erasable and recreatable two-dimensional electron gas at the heterointerface of SrTiO3 and a water-dissolvable overlayer, Sci. Adv. 5, eaaw7286 (2019).

[14] H. Du, Y. Jia, C. Niu, K. Hu, H. Li, and L. Yu, The ratio law of the structure evolution and stability for TinOm (n=3–18, m=1–2n) clusters, Chemical Physics Letters 731, 136574 (2019).

[13] J. Qi, K. Hu, and X. Li, Electric Control of the Edge Magnetization in Zigzag Stanene Nanoribbons from First Principles, Phys. Rev. Appl 10, 034048 (2018).

[12] K. Hu, Z. Zhou, Y.-W. Wei, C.-K. Li, and J. Feng, Bond ordering and phase transitions in Na₂IrO₃ under high pressure, Phys. Rev. B 98, 100103(R) (2018).

[11] J. Qi, X. Chen, K. Hu, and J. Feng, Graphene-based half-metal and spin-semiconductor for spintronic applications, J. Phys.: Condens. Matter 28, 126004 (2016).

[10] K. Hu and J. Feng, Valleytronics in two-dimensional semiconductors, 物理 45, 494 (2016).

[9] K. Hu and R. Zhang, A Second Mapping Method in Generalized Discrete Singular Convolution Algorithm: Regularizing Singularities for One Electron System, arXiv:1507.07062.

[8] K. Hu, F. Wang, and J. Feng, First-Principles Study of the Magnetic Structure of Na2IrO3, Phys. Rev. Lett. 115, 167204 (2015).

[7] J. Qi, X. Li, X. Chen, and K. Hu, Strain tuning of magnetism in Mn doped MoS₂ monolayer, J. Phys.: Condens. Matter 26, 256003 (2014).

[6] H.-Y. Deng, K. Hu, C. H. Lam, and H. Huang, Incipient ferroelectrics: Anomalous behaviors and their rotor interpretation, Solid State Commun. 152, 112 (2012).

[5] H.-Y. Deng and K. Hu, Hidden rotational symmetry in a generalized Ising model with rectangular symmetry, Phys. Scr. 84, 025011 (2011).

[4] K. Hu, L. Yu, and R. Zhang, Applications of discrete singular convolution algrithm in one-dimension systems: hydrogen atom, Journal of Theoretical and Computational Chemistry 08, 813 (2009).

[3] K. Hu and R. Q. Zhang, A generalized discrete singular convolution algorithm improved by regularizing singularities for one electron system, Chem. Phys. Lett. 475, 156 (2009).

[2] K. Hu, Optically injected spin current in [110] GaAs quantum wells, Solid State Commun. 148, 283 (2008).

[1] L. Hu, J. Zhong, and K. Hu, Nontrivial ac spin response in the effective Luttinger model, Phys. Lett. A 359, 76 (2006).



知识产权




科研项目

1. 学院超导研究专项项目,2024.9-2025.920万,在研,参与

2. 鸿之微企业横向,2021.12-2022.123万,结题,主持

3. 广东工业大学青年百人科研启动经费,2016-202020万,结题,主持。

4. 吕梁超算中心青年一号项目资助,2018.12-2019.081万,结题,主持。

5. 国家留学基金访问学者项目,2019.01-2019.1215万,结题,主持。

6. 国家自然科学基金理论物理专项,2017.01-2017.125 万,结题,主持。

7. 国家自然科学基金面上项目,2018.01-2021.1260万,结题,参与。

8. 广州市科技创新发展专项,2018.04-2021.0320万,结题,参与。



教学活动

任教课程:

1)研究生课程:计算材料学导论

2)本科生课程:理论力学,College Physics (全英)大学物理学


教改项目:

1)广东工业大学研究生人才培养计划项目,2025-202610万,在研,主持

2)学院“攀撑计划人才培养项目”子项目,2022.6-2023.51万,结题,主持



招生招聘

(1) 每年拟招收硕士研究生1-2名。同时欢迎有兴趣参加科研的本科生加入团队!

(2) 高薪聘请博士后。我校博士后待遇优厚,在站期间成果优秀者优先留校工作(享受学校青年百人计划待遇),详情请参考校人事处网页:https://hr.gdut.edu.cn/info/1064/4370.htm



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