Name | Zhiyuan Xiong |
Title | Ph.D, Prof. |
Address | School of Light Industry and Engineering |
xzyscut@scut.edu.cn | |
Research Interests | 1. Two-dimensional Materials 2. Soft Materials 3. Paper-based Materials 4. Materials Assembly and Processing |
Education | Educational Background: 2007.09-2011.07: Department of Applied Chemistry, Northwestern Polytechnical University, Major in Polymer Materials and Engineering, Bachelor of Engineering 2011.09-2016.07: Department of Chemical Engineering, Tsinghua University, Major in Materials Science and Engineering, Doctor of Engineering Work Experience: 2017.01-2019.01: Department of Materials Science and Engineering, Monash University, Australia, Postdoctoral Researcher 2019.01-2023.01: Department of Chemical Engineering, University of Melbourne, Australia, Postdoctoral Researcher 2023.01-Present: School of Light Industry Science and Engineering, South China University of Technology, Professor |
Scientific and professional organizations | Member of the American Institute of Chemical Engineers, Member of the Australian Institute of Energy. |
Selected Publications | [1] Xiong, Z.†*, Shen, L.†, Long, J.†, Li, X., Zhou, K., Choi, G.M., Ou, K., Yang, G., Ma, W., Lee, H.S.*, Sun, Y.,* & Li, D.* Ultrahigh Concentration Exfoliation and Aqueous Dispersion of Few-Layer Graphene by Excluded Volume Effect. Nature Communications, 2024, 15, 10807. [2] Zhan, K., Chen, Y., Xiong, Z.*, Zhang, Y., Ding, S., Zhen, F., Liu, Z., Wei, Q., Liu, M.S., Sun, B., Cheng, H.M. & Qiu, L. Low thermal contact resistance boron nitride nanosheets composites enabled by interfacial arc-like phonon bridge. Nature Communications, 15, 2905 (2024). [3] Xiong, Z., Yun, X., Qiu, L., Sun, Y., Tang, B., He, Z., Xiao, J., Chung, D., Ng, T. W. & Yan, H. A Dynamic Graphene Oxide Network Enables Spray Printing of Colloidal Gels for High‐Performance Micro‐Supercapacitors. Advanced Materials31, 1804434 (2019). [4] Xiong, Z., Liao, C., Han, W. & Wang, X. Mechanically Tough Large‐Area Hierarchical Porous Graphene Films for High‐Performance Flexible Supercapacitor Applications. Advanced Materials27, 4469-4475 (2015). [5] Zhan, H.†, Xiong, Z.†, Cheng, C.†, Liang, Q., Liu, J. Z. & Li, D. Solvation‐Involved Nanoionics: New Opportunities from 2D Nanomaterial Laminar Membranes. Advanced Materials32, 1904562 (2020). [6] Liu, D.Y. †, Xiong, Z.†, Wang, P.Y.,† Liang, Q.H., Zhu, H.J., Liu, Z.J., Forsyth, M. & Li, D.Ion-Specific Nanoconfinement Effect in Multilayered Graphene Membranes: A Combined Nuclear Magnetic Resonance and Computational Study. Nano Letters, 23, 5555-5561 (2023). [7] Lu W.J., Deng Q.X, Liu M.S., Ding, B.F., Xiong, Z.* & Qiu, L.*. Coaxial Wet Spinning of Boron Nitride Nanosheet-Based Composite Fibers with Enhanced Thermal Conductivity and Mechanical Strength. Nano-Micro Letters, accepted (2023). [8] Yang C.,† Wang, P.Y.,†Xiong, Z.†, Wu X., Chen H., Xiao J., Zhou G.M., Liang L.X., Hou G.J., Li D., Liu Z.J., Cheng, H.M. & Qiu, L., A perpendicular micro-hole array for efficient ion transport in a thick, dense MoS2-based capacitive electrode. Energy Storage Materials, 60, 102843 (2023). [9] Xiong, Z., Cao, Y., Jiang, W. J., Zu, L. H., Liang, Q. H. & Li, D. Shearing induced ordered structures in two-dimensional nanomaterials-based electrodes for boosted pseudocapacitive kinetics. Energy Storage Materials 53, 444-452 (2022). [10] Xiong, Z., Huang W., Liang Q., Cao Y., Liu S., He Z., Zhang R., Zhang B., Green R., Zhang S. & Li D. Harnessing the 2D Structure-Enabled Viscoelasticity of Graphene-Based Hydrogel Membranes for Chronic Neural Interfacing, Small Methods, 2022, 2200022. |