Dr. Xu Huasong, is currently an Assistant Professor and Master's supervisor at the College of Electronic and Information Engineering, Shenzhen University. In 2020, Dr. Xu was admitted to a "2+4" direct doctoral program following Master’s degree from South China University of Technology, and received his Ph.D. in 2024 (Supervisor: Academician Li Licheng and Professor Xie Congzhen). From 2022 to 2023, he undertook a government-sponsored visiting scholar position at the School of Materials Science and Engineering in Nanyang Technological University, Singapore. Over the past five years, Dr. Xu has published more than 25 high-level academic papers and been granted five invention patents. He has received numerous honors and awards including the government-sponsored scholarship for studying abroad, the President's Scholarship for Ph.D. students at South China University of Technology, the Outstanding Graduate, and the Exceptional Graduate Leader.

[1]Ph.D. in Electrical Engineering, South China University of Technology, Sep. 2018-Jun. 2024 ("2+4" direct doctoral program).

[2]Visiting Scholar in School of Materials Science and Engineering, Nanyang Technological University, Sep. 2022-Oct. 2023.

[3]B.S. in Electrical Engineering and Automation, South China University of Technology, Sep. 2014-Jun. 2018.

[1]Assistant Professor at the College of Electronics and Information Engineering, Shenzhen University, Jul. 2024-Present.

[1]Scholarship of the State Scholarship Fund, China Scholarship Council, 2022

[2]President's Scholarship, South China University of Technology, 2023

[3]President's Scholarship, South China University of Technology, 2022

[1]Advanced functional dielectrics

[2]Flexible electronic materials and devices

[3]Advanced packaging technology and materials

[1]Huasong Xu, Bin Gou, Jie He, Yong Lu, Hui Chen, Licheng Li, Congzhen Xie*, Xiao (Matthew) Hu*. Tunable nonlinear conductive behavior without percolation threshold and high thermal conductivity of epoxy resin/SiC ceramic foam co-continuous phase composites, Composites Science and Technology, 2023, 236: 109984.

[2]Huasong Xu, Congzhen Xie*, Bin Gou, Rui Wang*, Jiangang Zhou, Licheng Li. Core-double-shell structured BT@TiO₂@PDA and oriented BNNSs doped epoxy nanocomposites with field-dependent nonlinear electrical properties and enhancing breakdown strength, Composites Science and Technology, 2022, 230: 109777.

[3]Huasong Xu, Congzhen Xie*, Bin Gou, Rui Wang, Yancheng Li, Yan Du, Jiangang Zhou, Licheng Li. Synergetic optimization of charge transport and breakdown strength of epoxy nanocomposites: Realizing sandwich topological structure through constructing a SiC@SiO₂/EP surface layer and m-BNNS/EP insert layer. Materials Science in Semiconductor Processing, 2022, 141: 106430.

[4]Huasong Xu, Rui Wang, Bin Gou, Jiangang Zhou, Licheng Li, Congzhen Xie*. Globally enhanced thermal, mechanical and electrical properties of current-field grading composites with self-assembly semiconducting grains on 3D cellulose aerogel scaffolds. Composites Science and Technology, 2022, 218: 109197.

[5]Huasong Xu, Congzhen Xie*, Bin Gou, Rui Wang, Yancheng Li, Hao Yang, Licheng Li. Reappearance of Typical Characteristics of FRP Core Rods in the Decay-like Fracture Insulator. IEEE Transactions on Dielectrics and Electrical Insulation, 2021, 28(4): 1449-1456.

[6]Huasong Xu, Congzhen Xie*, Rui Wang, Bin Gou, Shoukang Luo, Jiangang Zhou. Effects of electrical-hydrothermal aging degradation on dielectric and trap properties of high temperature vulcanized silicone rubber materials. RSC Advances, 2020, 10(7): 3805-3816.

[7]Rui Wang, Huasong Xu, Sang Cheng, Jiajie Liang, Bin Gou, Jiangang Zhou, Jing Fu, Congzhen Xie*, Jinliang He*, Qi Li*. Ultrahigh-energy-density dielectric materials from ferroelectric polymer/glucose all-organic composites with a cross-linking network of hydrogen bonds. Energy Storage Materials, 2022, 49: 339-347.

[8]Bin Gou, Huasong Xu, Jiangang Zhou, Congzhen Xie*, Rui Wang*. Polymer-based nanocomposites with ultra-high in-plane thermal conductivity via highly oriented boron nitride nanosheets. Polymer Composites, 2022, 43(4): 2341-2349.

[9]Bin Gou, Jiangang Zhou, Huasong Xu, Hangchuan Cai, An Zhong, Daoming Zhang, Licheng Li, Rui Wang*, Congzhen Xie*. Epoxy polymer using tannic acid as the green crosslinker, exhibiting globally enhanced mechanical, insulating and thermally conductive properties. Reactive & Functional Polymers, 2023, 191: 105646.

[10]Bin Gou, Congzhen Xie*, Huasong Xu, Rui Wang*, Jiangang Zhou, Licheng Li. Self-assembly of diazonium-modified boron nitride nanosheets and glass fibre: A strategy synergistically improving mechanical, insulating and thermal properties of glass fibre reinforced polymer composites. Surfaces and Interfaces, 2023, 36: 102465.

[11]Hao Yang, Jiangang Zhou, Huasong Xu, Bin Gou, Rui Wang*, Congzhen Xie*. Achieving ultra-high discharge energy density of dielectric polymer nanocomposites by in situ synthesis. Materials Today Energy, 2022, 30: 101165.

[12]Bin Gou, Congzhen Xie*, Huasong Xu, Yan Du, Rui Wang, Licheng Li, Weinan Fan. Cracking mechanism and degradation performances of HTV silicone rubber with interfacial defects under acid and thermal stress. Engineering Failure Analysis, 2021, 127: 105468.

[13]Jiangang Zhou, Congzhen Xie*, Rui Wang, Huasong Xu, Bin Gou, Hao Yang, Licheng Li. Ultrahigh in-plane thermal conductive epoxy composites by cellulose-supported GnPs@PDA skeleton under stress-induced orientation strategy. Diamond and Related Materials, 2023, 139: 110340.

[14]Rui Wang, Bin Gou, Jing Fu, Huasong Xu, Sang Cheng, Jiangang Zhou, Yujie Zhu, Jinliang He, Congzhen Xie*, Qi Li*. High-energy-density ferroelectric polymer nanocomposites utilizing the Coulomb-blockade effect. Materials Today Nano, 2022, 20: 100260.

[15]Jiangang Zhou, Congzhen Xie*, Rui Wang, Huasong Xu, Bin Gou, Licheng Li. Enhanced in-plane thermal conductivity of PP composites with high orientation and rational layered distribution of BNNS. Materials Today Communication, 2022, 31: 103507.

[16]Bin Gou, Congzhen Xie*, Rui Wang, Huasong Xu, Jiangang Zhou, Licheng Li. Core-double-shell CNTs@SO@PDA and functionalized BNNS as nano-hybrids for synergistically enhancing mechanical and breakdown performances of epoxy with sandwich-like structure. Fibers and Polymers, 2022, 23(7): 2030-2041.

[17]Rui Wang, Congzhen Xie*, Bin Gou, Huasong Xu, Jiangang Zhou. Significant thermal conductivity enhancement of polymer nanocomposites at low content via graphene aerogel. Materials Letters, 2021, 305: 130771.

[18]Rui Wang, Congzhen Xie*, Shoukang Luo, Huasong Xu, Bin Gou, Jiangang Zhou, Hao Yang. Sandwich-structured polymer composites with core-shell structure BaTiO₃@SiO₂@PDA significantly enhanced breakdown strength and energy density for a high-power capacitor. ACS Applied Energy Materials, 2021, 4(6): 6135-6145.

[19]Rui Wang, Congzhen Xie*, Bin Gou, Huasong Xu, Shoukang Luo, Yan Du, Jiangang Zhou, Hao Yang. Core-shell structured BaTiO₃@SiO₂@PDA for high dielectric property nanocomposites with ultrahigh energy density. Journal of Applied Polymer Science, 2021, 138(37): e50943.

[20]Rui Wang, Congzhen Xie*, Bin Gou, Huasong Xu, Shoukang Luo, Jiangang Zhou, Leilei Zeng. Epoxy nanocomposites with high thermal conductivity and low loss factor: realize 3D thermal conductivity network at low content through core-shell structure and micro-nano technology. Polymer Testing, 2020, 89: 106574.