Dr. Wang received her Ph.D. Degrees in Electronics Materials and Devices at Xi'an Jiaotong University in 1998. she joined Southern University of Science and Technology in 2017. Prior to that, she worked at Xi'an Jiaotong University as professor. Dr. Wang was awarded the Distinguished Young Scholar from the National Science Foundation of China in 2010. Prof. Wang’s main research interests include dielectric materials, multifunctional composites, and dielectric measurements. She explored new dielectric ceramics with low sintering temperatures for LTCC applications, multifunctional low loss microwave composites with magnetic and electric properties as well as flexibility, nanocomposites for energy storage and electronic package applications. She also conducted the development of measurement technology and systems for wide frequency and wide temperature dielectric measurements in her lab. Her works on microwave dielectrics and dielectric measurements have also led to successful collaborations with industries.

Scientific Research

Prof. Hong Wang’s main research interests include dielectric materials, multifunctional composites, and dielectric measurements. She explored new dielectric ceramics with low sintering temperatures for LTCC applications, multifunctional low loss microwave composites with magnetic and electric properties as well as flexibility, nanocomposites for energy storage and electronic package applications. She also conducted the development of measurement technology and systems for wide frequency and wide temperature dielectric measurements in her lab. Her works on microwave dielectrics and dielectric measurements have also led to successful collaborations with industries.

Courses

MSE342《 Crystal Chemistry》

COURSE OBJECTIVES:

1)    To identify important raw materials and minerals as well as their names and chemical formulas.

2)    To describe the crystal structure of important materials and be able to build their atomic models.

3)    To learn the systematics of crystal and glass chemistry.

4)    To understand how physical and chemical properties are related to crystal structure and microstructure.

Recent Selected Publications

1. Huajing Fang, Cheng Zheng, Liangliang Wu, Yi Li, Jian Cai, Mingxiang Hu, Xiaosheng Fang^*, Rong Ma, Qing Wang and Hong Wang^*, “Solution-Processed Self-Powered Transparent Ultraviolet Photodetectors with Ultrafast Response Speed for High-Performance Communication System”, Advanced Functional Materials, 1809013, 2019.
2. Jie Chen, Yifei Wang, Xinwei Xu, Qibin Yuan, Yujuan Niu, Qing Wang and Hong Wang^*, “Ultrahigh discharge efficiency and energy density achieved at low electric fields from sandwich-structured polymer films containing dielectric elastomers”, Mater. Chem. A, 7:3729-3736, 2019.
3. Yifei Wang, Jie Chen, Yi Li, Yujuan Niu, Qing Wang, Hong Wang^*, “Multilayered hierarchical polymer composites for high energy density capacitors”, Mater. Chem. A, 7:2965 - 2980, 2019.
4. Wenlong Liu, Ming Liu^*, Rong Ma, Ruyi Zhang, Wenqing Zhang, Dapeng Yu, Qing Wang, Jiannong Wang, and Hong Wang^*, “Mechanical Strain-tunable Microwave Magnetism in Flexible CuFe₂O₄ Epitaxial Thin Film for Wearable Sensors”, Advanced Functional Materials, 28(10):1705928, 2018.
5. Yifei Wang, Linxi Wang, Qibin Yuan, Jie Chen, Yujuan Niu, Xinwei Xu, Yatong Cheng, Bin Yao, Qing Wang, and Hong Wang^*, “Ultrahigh energy density and greatly enhanced discharged efficiency of sandwich-structured polymer nanocomposites with optimized spatial organization”, Nano Energy, 44:364-370, 2018.
6. Qibin Yuan, Geng Li, Fang-Zhou Yao^*, Shao-Dong Cheng, Yifei Wang, Rong Ma, Shao-Bo Mi, Meng Gu, Ke Wang, Jing-Feng Li, Hong Wang^*, Simultaneously achieved temperature-insensitive high energy density and efficiency in domain engineered BaTiO₃-Bi(Mg₅Zr_0.5)O₃ lead-free relaxor ferroelectrics, Nano Energy, 52: 203-210, 2018.
7. Jie Chen, Yifei Wang, Qibin Yuan, Xinwei Xu, Yujuan Niu, Qing Wang, Hong Wang^*, Multilayered ferroelectric polymer films incorporating low-dielectric­constant components for concurrent enhancement of energy density and charge-discharge efficiency, Nano Energy, 54: 288-296, 2018.
8. Huajing Fang^*, Pengyue Zheng, Rong Ma, Chen Xu, Gaiying Yang, Qing Wang and Hong Wang^*, Multifunctional hydrogel enables extremely simplified electrochromic devices for smart windows and ionic writing boards, Materials Horizons, 5: 1000-1007, 2018.
9. Qi Li, Fangzhou Yao, Yang Liu, Guangzhu Zhang, Hong Wang^*, and Qing Wang*, “High-temperature dielectric materials for electrical storage”, Annual Review of Materials Research, 48:219-43, 2018.
10. Zhiguang Qiu, Yongbiao Wan, Wohua Zhou, Jingyi Yang, Junlong Yang, Jun Huang, Jianming Zhang, Qingxian Liu, Siya Huang, Ningning Bai, Zhigang Wu, Wei Hong, Hong Wang, and Chuan Fei Guo^*, Ionic Skin with Biomimetic Dielectric Layer Templated from Calathea Zebrine Leaf, Advanced Functional Materials, 28: 1802343, 2018.
11. Feihua Liu, Qi Li, Jin Cui, Zeyu Li, Guang Yang, Lijie Dong, Chuanxi Xiong, Hong Wang^*, Qing Wang, “High-energy-density dielectric polymer nanocomposites with trilayered architecture”, Advanced Functional Materials, 27(20): 1606292, 2017.
12. Zixiong Sun, Chunrui Ma, Ming Liu, Jin Cui, Lu Lu, Jiangbo Lu, Xiaojie Lou, Lei Jin, Hong Wang^*, Chun-Lin Jia, “Ultrahigh energy storage performance of lead-free oxide multilayer film capacitors via interface engineering”, Advanced Materials, 29:1604427, 2017.
13. Lvkang Shen, Liang Wu,  Quan Sheng,  Chunrui Ma, Yong Zhang,  Lu Lu,  Ji Ma,  Jing Ma,  Jihong Bian,  Yaodong Yang,  Aiping Chen,  Xiaoli Lu,  Ming Liu,  Hong Wang,  Chun-Lin Jia, “Epitaxial Lift-Off of Centimeter-Scaled Spinel Ferrite Oxide Thin Films for Flexible Electronics”, Advanced Materials, 29, 1702411, 2017.
14. Yifei Wang, Linxi Wang, Qibin Yuan, Yujuan Niu, Jie Chen, Qing Wang, and Hong Wang^*, "Ultrahigh electric displacement and energy density in gradient layer-structured BaTiO₃/PVDF nanocomposites with an interfacial barrier effect", Journal of Materials Chemistry A, 5(22):10849-55, 2017.
15. Yifei Wang, Jin Cui, Linxi Wang, Qibin Yuan, Yujuan Niu, Jie Chen, Qing Wang, Hong Wang^*, “Compositional tailoring effect on electric field distribution for significantly enhanced breakdown strength and restrained conductive loss in sandwich-structured ceramic/polymer nanocomposites”, Journal of Materials Chmistry A, 5(9):4710-4718, 2017.
16. Gaoqun Zhang, Jing Guo, Hong Wang^*, “Ultra-low temperature sintering microwave dielectric ceramics based on Ag₂O-MoO₃ binary system”, Journal of the American Ceramic Society, 100(6):2604-2611, 2017.
17. Yifei Wang, Jin Cui, Qibin Yuan, Yujuan Niu, Yuanyuan Bai, Hong Wang^*, “Significantly enhanced breakdown strength and energy density in sandwich-structured barium titanate/ poly(vinylidene fluoride) nanocomposites”, Advanced Materials, 27(42):6657-63, 2015.
18. Gaoqun Zhang, Hong Wang^*, Jing Guo, Li He, Dandan Wei, Qi-Bin Yuan, “Ultra-low sintering temperature microwave dielectric ceramics based on Na₂O-MoO₃ binary system”, Journal of the American Ceramic Society, 98 (2):528–533, 2015.
19. Li He, Shaobo Mi, Xiaowei Jin, Hui Zhang, Di Zhou, Haibo Yang, Hong Wang^*, “Order-disorder phase transition and magneto-dielectric properties of (1-x)LiFe₅O₈-xLi₂ZnTi₃O₈ spinel-structured solid solution ceramics”, Journal of the American Ceramic Society, 98 (7):2122–2129, 2015.
20. Panpan Chang, Li He, Hong Wang^*, “Low loss magneto-dielectric composite ceramics Ba₃Co₂ Fe₂₄O₄₁/SrTiO₃ for high-frequency applications”, Journal of the American Ceramic Society, 98 (4):1137–1141, 2015.     Welcome to my Researcher ID