华中科技大学物理学院凝聚态物理研究所教授,博士生导师。2007年,华中科技大学物理学院博士毕业,并留校工作;2009年,破格评为副教授;2015年9月-2017年7月,美国加州大学尔湾分校(UCI)物理与天文系助理研究员(Ruqian Wu教授课题组);2019年评为教授。长期从事手性自旋电子学(CISS效应)、非平衡态量子输运理论、拓扑量子材料和新能源材料等方向的研究工作。已主持国家自然科学基金面上/青年、中国博士后基金特别资助/一等资助、科技部重大研发项目子课题、湖北省自然科学基金面上等科研项目近10项。以第一、通讯(含共同通讯)作者在国际重要学术期刊, 如Advanced Materials、 Advanced Science、 Advanced Functional Materials、 ACS Nano、 ACS Energy Letters、 Nano Letters、Materials Horizons、Materials Today Physics、npj Computational Materials、Journal of Physical Chemistry Letters、Journal of Materials Chemistry A/C、 Physical Review B (含Letter)、 Physical Review Applied、 Physical Review Research、 Applied Physical Letters、 New Journal of Physics等,发表学术论文100余篇。曾任湖北省物理学会副秘书长、理事兼学术工作部副主任;华中科技大学物理学院院长助理、凝聚态物理研究所副所长、大学物理中心副主任等职。曾获湖北省自然科学奖一等奖1项,湖北省优秀博士学位论文作者;主讲的本科生课程曾多次被评为“华中科技大学学生最满意课堂”等。曾多次担任Physical Review Letters、Nature Communications、Advanced Science、Physical Review B、Fundamental Research、2D Materials等国际重要学术期刊审稿人;先后多次到美、日、新加坡等国开展学术交流和访问。
已发表代表性学术论文(*通讯作者):
1. Xiang-Feng Yang, Zhe-Qi Wang, Hua-Hua Fu*, “Anisotropic Spin Transport Enhanced by Zero- Dimensional Weyl Nodes in Altermagnetic Weyl Semimetals”, Advanced Functional Materials, 2025, 2502516 (一区论文).
2. Hongsen Cui, Weiqing Chen, Xiang-Feng Yang, Shun Zhou, Chen Wang, Guoyi Chen, Shengjie Du, Kailian Dong, Shuxin Wang, Hua-Hua Fu*, Weizhong Wang*, Weijun Ke*, Guojia Fang*, “Grains > 2 μm with Regulating Grain Boundaries for Efficient Wide-Bandgap Perovskite and All-Perovskite Tandem Solar Cells”, Advanced Materials, 2025, 2502770 (一区论文).
3. Zhimiao Zheng, Yansong Ge, Xiangfeng Yang, Wenlong Shao, Haibing Wang, Zixi Yu, Chen Tao*, Hua-Hua Fu*, Weijun Ke*, Guojia Fang*, “Stress Relaxation for Lead Iodide Nucleation in Efficient Perovskite Solar Cells”, Advanced Materials, 2025, 2412304 (一区论文).
4. Shuxin Wang, Zhiqiu Yu, Xiang-Feng Yang, Guoyi Chen, Chaomin Dong, Hua-Hua Fu*, Weijun Ke*, Guojia Fang*, “Multifunctional Additives with Cation−π Interactions Enable High-Performance Blue Perovskite Light-Emitting Diodes”, ACS Energy Letters, 2025, 10, 1183-1191 (一区论文).
5. Zhe-Qi Wang, Xiang-Feng Yang, Hua-Hua Fu*, “Charge-six twofold Weyl states induced by the coupling of neighboring bands”, Physical Review B (Letter), 2025, 111, L201301.
6. Qing-Bo Liu, Xaingyang Li, Ziyang Yu, Lun Xiong*, Hua-Hua Fu*, “Topological magnetic corner states in two-dimensional ferrimagnetic metal-organic frameworks”, Physical Review B, 2025, 111, 075433.
7. Xiang-Feng Yang, Zhe-Qi Wang, Kai-Yuan Zhang, Hua-Hua Fu*, “Unconventional nodal surfaces and symmetry-enhanced nodal line surface hybrid phonons in CsMgBr3-family materials”, Physical Review B, 2025, 111, 075305.
8. Qing-Bo Liu, Lun Xiong, Ziyang Yu, Hua-Hua Fu*, “Searching for topological carbon allotropes and the possible nontrivial quasi-particle states in them”, Materials Today Physics, 2025, 53, 101700 (一区论文).
9. Song Chen, Hua-Hua Fu*, “Chirality-Induced Majorana Zero Modes and Majorana Polarization”, ACS Nano, 2024, 18, 34126-34133 (一区论文).
10. Song Chen, Ruqian Wu, Hua-Hua Fu*, “Persistent Chirality-Induced Spin-Selectivity Effect in Circular Helix Molecules”, Nano Letters, 2024, 24, 6210-6217 (期刊封面论文、一区论文).
11. Kailian Dong, Xiangfeng Yang, Fang Yao*, Hengjiang Cong, Hai Zhou, Shun Zhou, Hongsen Cui, Shuxin Wang, Chen Tao, Chengliang Sun, Hua-Hua Fu*, Weijun Ke*, Guojia Fang*, “Spacer Conformation Induced Multiple Hydrogen Bonds in 2D Perovskite toward Highly Efficient Optoelectronic Devices”, Advanced Materials, 2024, 2313889.
12. Xingyi Tan, Hengze Qu, Jialin Yang, Shengli Zhang*, Hua-Hua Fu*, “A next-generation transistor with low supply voltage operation constructed based on 2D materials’ metal–semiconductor phase transition”, Materials Horizons, 2024, 11, 5366 (一区论文).
13. Zhe-Qi Wang, Xiang-Feng Yang, Hua-Hua Fu*, “Inhomogeneous fan-shaped surface state induced by isolated Weyl points in acoustic crystals and the associated multi-frequency sound-wave filters”, Materials Today Physics, 2024, 48, 101553 (一区论文).
14. Xiang-Feng Yang, Zhe-Qi Wang, Hua-Hua Fu*, “Butterfly-shape hourglass type-II nodal birdcage and multiple quadratic nodal-line phonons in BaXN2 (X = Ti, Zr, Hf)”, Physical Review B, 2024, 109, 155414.
15. Hua-Hua Fu*, Qing-Bo Liu*, Zhe-Qi Wang, Xiang-Feng Yang, “Multi-Fold Fan-Shape Surface State Induced by an Isolated Weyl Phonon Beyond No-Go Theorem”, Advanced Science, 2023, 10, 22075 (一区论文).
16. Xiang-Feng Yang, Qing-Bo Liu, Zhe-Qi Wang, Hua-Hua Fu*, “Symmetry Unconventional Charge-Two Weyl Phonons in High-Symmetry Lines”, Advanced Physics Research, 2023, 2, 2300004.
17. Xiangyang Li, Qing-Bo Liu, Yongsen Tang, Wei Li, Ning Ding, Zhao Liu, Hua-Hua Fu, Shuai Dong, Xingxing Li*, Jingling Yang*, “Quintuple Function Integration in Two-Dimensional Cr(II) Five-Membered Heterocyclic Metal Organic Frameworks via Tuning Ligand Spin and Lattice Symmetry”, Journal of the American Chemical Society, 2023, 145, 7869-7878 (一区论文).
18. Qaing-Bo Liu, Xiang-Feng Yang, Zhe-Qi Wang, Ziyang Yu*, Lun Xiong*, Hua-Hua Fu*, “Symmetry-enforced type-II Weyl phonons and hybridWeyl nodal-line phonons in P4m2-carbon”, Physical Review B, 2023, 108, 235302.
19. Ao Lou, Yuangyang Yu, Butian Zhang, Yi Liu, Quan Fu, Jiankang Zhang, Hua-Hua Fu*, Shun Wang*, Ze-Bing Zhou*, “Theoretical Calculations and Experimental Measurements on the Two-Component Au-Pt Alloys with Ultralow Magnetic Susceptibility”, Physical Review Applied, 2023, 19, 034080.
20. Song Chen, Hua-Hua Fu*, “Spin-Dependent Destructive and Constructive Quantum Interference Associated with Chirality-Induced Spin Selectivity in Single Circular Helix Molecules”, Journal of Physical Chemistry Letters, 2023, 14, 11076-11083.
21. Ao Lou, Hua-Hua Fu*, Ruqian Wu, “Ga4C-family crystals, a new generation of star thermoelectric materials, achieved by band degeneracies, valley anisotropy, and strong phonon scattering among others”, Journal of Materials Chemistry A, 2023, 11, 8013-8023 (期刊封面论文、一区论文).
22. Qing-Bo Liu, Zhe-Qi Wang, Hua-Hua Fu*, “Topological phonons in allotropes of carbon”, Materials Today Physics, 2022, 24, 100694 (一区论文).
23. Ao Lou, Qing-Bo Liu, Hua-Hua Fu*, “Enhanced thermoelectric performance by lone-pair electrons and bond anharmonicity in the two-dimensional Ge2Y2 family of materials with Y = N, P, As, or Sb”, Physical Review B, 2022, 105, 075431.
24. Zhe-Qi Wang, Qing-Bo Liu, Xiang-Feng Yang, Hua-Hua Fu*, “Single-pair Weyl points with the maximum charge number in acoustic crystals”, Physical Review B (Letter), 2022, 106, L161302.
25. Qing-Bo Liu, Zhe-Qi Wang, Hua-Hua Fu*, “Topological nodal-link phonons, three-fold, Dirac and six-fold nodal-point phonons in the insulator SiO2”, New Journal of Physics, 2022, 24, 113040.
26. Dan-Dan Wu, Yu-Tian Ji, Gui-Fang Du, Xiao-Yu Yue, Yi-Yan, Wang, Qiu-Ju Li, Xue-Feng Sun*, Hua-Hua Fu*, “Spin-gapless semiconducting Cl-intercalated phosphorene bilayer: a perfect candidate material to identify its ferroelectric states by spin-Seebeck currents”, Journal of Materials Chemistry C, 2022, 10, 3188.
27. Qing-Bo Liu, Zhijun Wang, Hua-Hua Fu*, “Charge-four Weyl phonons”, Physical Review B (Letter), 2021, 103, L161303.
28. Qing-Bo Liu, Zhe-Qi Wang, Hua-Hua Fu*, “Ideal topological nodal-surface phonons in RbTeAu-family materials”, Physical Review B (Letter), 2021, 104, L041405.
29. Xingyi Tan, Linjie Ding, Gui-Fang Du, Hua-Hua Fu*, “Spin caloritronics in two-dimensional CrI3/NiCl2 van derWaals heterostructures”, Physical Review B, 2021, 103, 115415.
30. Qing-Bo Liu, Hua-Hua Fu*, Ruqian Wu, “Topological phononic nodal hexahedron net and nodal links in the high-pressure phase of the semiconductor CuCl”, Physical Review B, 2021, 104, 045409.
31. Qing-Bo Liu, Yuting Qian, Hua-Hua Fu*, Zhijun Wang*, “Symmetry-enforced Weyl phonons”, npj Computational Materials, 2020, 6, 95 (一区论文).
32. Gui-Fang Du, Hua-Hua Fu*, Ruqian Wu*, “Vibration-enhanced spin-selective transport of electrons in the DNA double helix”, Physical Review B, 2020, 102, 035431.
33. Hua-Hua Fu*, Dan-Dan Wu, Gui-Fang Du, Qing-Bo Liu, Menghao Wu, “Low energy dissipation readout of single-molecule ferroelectronic states by a spin-Seebeck signal”, Physical Review Research, 2020, 2, 043406.
34. Dan-Dan Wu, Gui-Fang Du, Hua-Hua Fu*, “Spin-dependent Seebeck effect, and spin-filtering and diode effects in magnetic boron–nitrogen nanotube heterojunctions”, Journal of Materials Chemistry C, 2020, 8, 4486.
35. Hua-Hua Fu*, Gui-Fang Du, Dan-Dan Wu, Qing-Bo Liu, Ruqian Wu*, “Spin-orbit coupling induced robust spin-Seebeck effect and pure thermal spin currents in achiral molecule systems”, Physical Review B, 2020, 100, 085407.
36. Lizhi Yi, Dongchao Yang, Min Liu, Hua-Hua Fu, Linjie Ding, Yunli Xu, Bingbing Zhang, Liqing Pan*, John Q. Xiao*, “Concepts of Spin Seebeck Effect in Ferromagnetic Metals”, Advanced Functional Materials, 2020, 2004024.
37. Qing-Bo Liu, Hua-Hua Fu*, Gang Xu, Rui Yu, Ruqian Wu, “Categories of Phononic Topological Weyl Open Nodal Lines and a Potential Material Candidate: Rb2Sn2O3”, Journal of Physical Chemistry Letters, 2019, 10, 4045-4050.
38. Dan-Dan Wu, Hua-Hua Fu*, Qing-Bo Liu, Gui-Fang Du, Ruqian Wu*, “Magnetic nanotubes: A new material platform to realize a robust spin-Seebeck effect and a perfect thermal spin-filtering effect”, Physical Review B, 2018, 98, 115422.
39. Dan-Dan Wu, Hua-Hua Fu*, Qing-Bo Liu, Ruqian Wu*, “How to realize the spin-Seebeck effect with a high spin figure of merit in magnetic boron-nitrogen nanoribbon and nanotube structures?”, Journal of Materials Chemistry C, 2018, 6, 10603-10610.
40. Lei Gu, Hua-Hua Fu*, Ruqian Wu*, “How to control spin-Seebeck current in a metal-quantum dot-magnetic insulator junction”, Physical Review B, 2016, 94, 115433.
41. Lei Gu, Hua-Hua Fu*, “Current-induced enhancement of DNA bubble creation”, New Journal of Physics, 2016, 18, 053032.
42. Hua-Hua Fu*, Dan-Dan Wu, Lei Gu, Menghao Wu, Ruqian*, “Design for a spin-Seebeck diode based on two-dimensional materials”, Physical Review B, 2015, 92, 045418.
43. Menghao Wu*, Hua-Hua Fu, Ling Zhou, Kailun Yao, Xiao-Cheng Zeng*, “Nine New Phosphorene Polymorphs with Non-Honeycomb Structures: A Much Extended Family”, Nano Letters, 2015, 15, 3557-3562.
44. Hua-Hua Fu*, Jing-Tao Lv, Jin-Hua Gao*, “Finite-size effects in the quantum anomalous Hall system”, Physical Review B, 2014, 89, 205431.
45. Hua-Hua Fu*, Kai-Lun Yao, “Perfect spin-filter and highly spin-polarized current in a quantum network device”, Applied Physics Letters, 2012, 100, 013502.
46. Hua-Hua Fu*, Kai-Lun Yao, “Spin-filter and Fano antiresonant effect in conductance through a zigzaglike polymer device: Nonequilibrium Green’s function approach”, Journal of Chemical Physics, 2011, 134, 054903.
47. Hua-Hua Fu*, Kai-Lun Yao, Zu-Li Liu “Magnetic properties of very-high-spin organic π-conjugated polymers based on Green's function theory”, Journal of Chemical Physics, 2008, 129, 134706.
48. Hua-Hua Fu*, Kai-Lun Yao, Zu-Li Liu “Magnetic properties and quantum phase transitions of purely organic molecule-based ferrimagnets based on Green's function theory”, Journal of Chemical Physics, 2008, 128, 114705.
49. Hua-Hua Fu*, Kai-Lun Yao, Zu-Li Liu “Nature of the ferromagnetic behavior and possible occurrence of the ferrimagnetic phase transition in genuinely organic molecule-based assemblages with an S=1 and S=1/2 antiferromagnetic alternating spin chain: A Green's function approach”, Journal of Physical Chemistry A, 2008, 112, 6205-6210.
50. Hua-Hua Fu*, Kai-Lun Yao, Zu-Li Liu, “Thermodynamic properties of a spin-1/2 diamond chain as a model for a molecule-based ferrimagnet and the compound Cu3(CO3)2(OH)2”, Physical Review B, 2006, 73, 104454.
51. Hua-Hua Fu*, Jin-Hua Gao, Kun-Lun Yao, “Topological field-effect quantum transistors in HgTe nanoribbons”, Nanotechnology, 2014, 25, 225210.
52. Lei Gu, Hua-Hua Fu*, “Current-induced forces: a new mechanism to induce negative differential resistance and current-switching effect in molecular junctions”, Nanotechnology, 2015, 26, 485703.
53. Zhao-Qian Zhang, Yu-Rong Yang, Hua-Hua Fu*, Ruqian Wu, “Design of spin-Seebeck diode with spin semiconductors”, Nanotechnology, 2016, 27, 505201.
54. Dan-Dan Wu, Hua-Hua Fu*, “Spin-Seebeck effect and thermal colossal magnetoresistance in the narrowest zigzag graphene nanoribbons”, Nanotechnology, 2021, 32, 245703.
55. Hua-Hua Fu*, Ruqian Wu, “New topological states in HgTe quantum wells from defect patterning”, Nanoscale, 2018, 10, 15462-15467.
56. Xingyi Tan, Lili Liu, Hui Wang, Gui-Fang Du, Ao Lou, Hua-Hua Fu*, “One-dimensional transition metal dihalide nanowires as robust bipolar magnetic semiconductors”, Nanoscale, 2020, 12, 8942-8948.
讲授课程:
凝聚态物理前沿,凝聚态物理理论,原子物理学,大学物理(学生最满意课堂)、大学物理实验等。
每年招收博士和硕士研究生各1-2名,欢迎同学们加入我课题组!
联系方式:hhfu@hust.edu.cn;
