2001.09-2005.07 北京科技大学材料科学与工程学院，学士

2005.09-2010.01 清华大学材料科学与工程系，博士

2010.10-2012.01 德国达姆斯塔特工业大学/洪堡学者

2012.01-至今 清华大学材料学院/讲师、副研究员、研究员

2023.12-至今 清华大学材料学院/副院长

《材料力学性能基础》本科生必修课

《陶瓷制备工艺与性能测试》研究生选修课（英文）

压电陶瓷材料及器件应用、人工智能赋能的功能材料研发

中国硅酸盐学会微纳技术分会 理事兼秘书长

中国复合材料学会学术交流工作委员会 主任委员

Journal of the American Ceramic Society 期刊Associate editor

部分典型项目：

1. 国家重点研发计划，项目负责人， 2021-2025

2. 国家自然科学基金重点项目，项目负责人，2021-2025

3. 国家自然科学基金杰出青年基金，项目负责人，2024-2028

4. 国家自然科学基金创新群体项目，项目骨干， 2025-2029

5. 北京市自然科学基金委杰青项目，项目负责人，2020-2023

国际权威期刊上发表学术论文170余篇，被SCI论文引用14000余次。H因子58，获国家发明专利授权5项。相关工作获得十余项国家及省部级项目支持。

近五年代表性论文：

1. Z. Xu, X. M. Shi, Y.-X. Liu, D. Y. Wang, H.-C. Thong, Y. Q. Jiang, Z. J. Sha, Z. Li, F.-Z. Yao, X.-X. Cai, H.-F. Huang, Z. P. Xu, X. Y. Jin, C.-B.-W. Li, X. Zhang, W. W. Ren, Z. H, Dong, C.F. Wu, P. Kabakov, F. Y. Zhu. F. Chen, P. Tan, H. Tian, H. Z. Sha, R. Yu, B. Xu, W. Gong, X. H. Wang, J.-F. Li, S. J. Skinner, M. Li, H. B. Huang*, S. J. Zhang*, K Wang*. High electrostrain in a lead-free piezoceramic from a chemopiezoelectric effect. Nat. Mater., 4(24), (2025)

2. H. C. Thong, F.-Z. Yao, X.-X. Cai, Z. Xu, M.-H. Zhang, H. Z. Zhang, B. Xu, Y. Wei, S.-D. Wang, K. Wang. Increased Curie temperature in lithium substituted ferroelectric niobate perovskite via soft polar mode enhancement. Npj.Compu. Mat.,11(1), (2025)

3. Y. Q. Jiang, M.-H. Zhang*, C.-F. Wu, Z. X. Z. Li, J.-T. Lu, H.-F. Huang, J.-J Zhou*, Y.-X. Liu*, T. H. Zhou*, W. Gong*, K. Wang. Low-field-driven large strain in lead zirconate titanium-based piezoceramics incorporating relaxor lead magnesium niobate for actuation. Nat. Commun.,15(1), 9024. (2024)

4. B.Wu, H.J. Zheng, Y. Q. Wu, Z. C. Huang, H.-C. Thong, H. Tao, J. Ma, C. L. Zhao, Z. Xu, Y.-X. Liu, Z. P. Xing, N. X. Liang, F.-Z. Yao, C. F. Wu, K. Wang, B. Han. Origin of ultrahigh-performance barium titanate-based piezoelectrics: Stannum-induced intrinsic and extrinsic contributions Nat. Commun.,15(1), 7700. (2024)

5. H. C. Thong, X. Y. Wang*, J. Han, L. F. Zhang, B. Li, K. Wang*, B. Xu*. Machine learning interatomic potential for molecular dynamics simulation of the ferroelectric KNbO₃ perovskite. Phys. Rev. B, 107(1): 014101 (2023).

6. Z. Xu, Y. X. Liu, M. Azadeh, H. C. Thong, Y. Q. Jiang, F.-Z. Yao, Z.-X. Yue, Z.-T. Zhang, Z.-L. Tang, J.-F. Li, H. Wang*, T. Frömling*, K. Wang*. Identifying the Interfacial Polarization in Non-stoichiometric Lead-Free Perovskites by Defect Engineering. Angew. Chem. Int. Ed.,62(9): e202216776 (2023).

7. Y. X. Liu, W. B. Qu, H. C. Thong, Y. Zhang, Y. F. Zhang, F. Z. Yao, T. N. Nguyen, J. W. Li, M. H. Zhang, J. F. Li*, B. Han*, W. Gong, H. J. Wu, C. F. Wu, B. Xu, K. Wang*. Isolated-Oxygen-Vacancy Hardening in Lead-Free Piezoelectrics. Adv. Mater., 34(29): 2202558 (2022).

8. M. H. Zhang, C Shen, C. H. Zhao, M. Dai, F.-Z. Yao, B. Wu*, J. Ma, H. Nan, D. W. Wang, Q. B. Yuan, L. L. Silva, L.Fulanović, A. Schökel, P. T. Liu, H. B. Zhang, J.-F. Li, N. Zhang*, K. Wang*, J. Rödel, M. Hinterstein. Deciphering the phase transition-induced ultrahigh piezoresponse in (K,Na)NbO₃-based piezoceramics Nat. Commun., 13(1), 3434 (2022).

9. H. C. Thong, A. Payne, J. W. Li, Y. Y. S. Cheng, J. Jonesb*, K. Wang*. The origin of chemical inhomogeneity in lead-free potassium sodium niobate ceramic: Competitive chemical reaction during solid-state synthesis. Acta Mater., 211:116833 (2021).

10. M. H. Zhang, Q. H. Zhang, T. T. Yu, G. Li, H. C. Thong, L. Y. Peng, L. S. Liu, J. Ma, S. Yang, Z. J. Shen, J. Daniels, L. Gu, B. Han, L. Q. Chen, J. F. Li, F. Li*, K. Wang*. Enhanced electric-field-induced strains in (K,Na)NbO₃ piezoelectrics from heterogeneous structures. Mater. Today,46: 44-53 (2021).