RongWang

Research direction:3D/4D printing of ceramics; Design & manufacturing of metamaterials

Postbox:wangr8@sustech.edu.cn

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Rong WANG received the Ph.D degree in Materials Science and Engineering from the University of Chinese Academy of Sciences in June 2018. He completed the postdoctoral research at the Tsinghua Shenzhen International Graduate School from Sept. 2018 to Aug. 2020. He joined the Southern University of Science and Technology (SUSTech) in Sept. 2020, as Research Assistant Professor in the Department of Mechanical and Energy Engineering. His research focus on the 3D printing and 4D printing of ceramic materials, the design and manufacturing of terahertz photonic crystals and metamaterials. Dr. Wang has published 10 research articles in journals such as Journal of Materials Chemistry C, Journal of the American Ceramic Society, Materials & Design, among which "Modulation of terahertz properties of 3D ceramic photonic crystals via post-creation non-metal anion doping treatment" (Journal of the American Ceramic Society 2019, 102, 4688) won the JACerS Best Paper Award in 2019.

Research Area：
3D/4D printing of ceramics;
Design & manufacturing of metamaterials

Work Experience：
◆ Sept. 2020 - present
Research Assistant Professor, Department of Mechanical and Energy Engineering, Southern University of Science and Technology

◆ Sept. 2018 - Aug. 2020
Postdoctor, Tsinghua Shenzhen International Graduate School

◆ Jul. 2009 - May 2011
Engineer, Yangchun New Steel & Iron Co. Ltd

Education:
◆ Jun. 2018 Ph.D., University of Chinese Academy of Sciences
◆ Jun. 2009 B.S., Wuhan University of Science and Technology

Representative Papers:
◆ R. Wang^#, W. Yang^#, S. Gao, X. Ju, P. Zhu, B. Li, Q. Li*, Direct-writing of vanadium dioxide/polydimethylsiloxane three-dimensional photonic crystals with thermally tunable terahertz properties, Journal of Materials Chemistry C, 7 (2019) 8185-8191.
◆ R. Wang^#, W. Yang^#, S. Gao, X. Ju, P. Zhu, B. Li, Q. Li*, Modulation of terahertz properties of 3D ceramic photonic crystals via post-creation non-metal anion doping treatment, Journal of the American Ceramic Society 102 (2019) 4688-4697.
◆ R. Wang^#, W. Yang^#, P. Zhu, S. Gao, B. Li, Q. Li*, Creation of 3D terahertz photonic crystals by the direct writing technique with a TiO₂ sol-gel ink, Journal of the American Ceramic Society 101 (2018) 1967-1973. .
◆ R. Wang^#, P. Zhu^#, W. Yang^#, S. Gao, B. Li, Q. Li*, Direct-writing of 3D periodic TiO₂ bio-ceramic scaffolds with a sol-gel ink for in vitro cell growth, Materials & Design 144 (2018) 304-309.
◆ H. Zhang, R. Wang, P. Li, L. Jia, F. Wang, Y. Liu, H. Wang, L. Yu, B. Li^*, One-Step, Large-Scale Blow Spinning to Fabricate Ultralight, Fibrous Sorbents with Ultrahigh Oil Adsorption Capacity, ACS Applied Materials & Interfaces 13 (2021) 6631-6641.
◆ X. Zeng, R. Wang, X. Xi, B. Li^*, J. Zhou^*, 3D direct writing of terahertz metamaterials based on TbFeO₃ dielectric ceramics, Applied Physics Letters 113 (2018) 081901.
◆ X. Zeng, R. Wang, X. Xi, B. Li, J. Zhou*, Terahertz rare-earth orthoferrite metamaterials by 3-D direct writing technology, Optics Express 26 (2018) 17056-17065.
◆ J. N. Gao, R. Wang, Q. Zhao^*, B. Li^*, J. Zhou^*. A Modularized and Switchable Component for Flexible Passive Device: Terahertz Photonic Crystals with Fine-Tuning, Advanced Optical Materials 6 (2018) 1800384.
◆ P. Zhu^#, W. Yang^#, R. Wang, S. Gao, B. Li, Q. Li*, 4D Printing of Complex Structures with a Fast Response Time to Magnetic Stimulus, ACS Applied Materials & Interfaces 10 (2018) 36435-36442.
◆ P. Zhu^#, W. Yang^#, R. Wang, S. Gao, B. Li*, Q. Li*, Direct writing of flexible barium titanate/polydimethylsiloxane 3D photonic crystals with mechanically tunable terahertz properties, Advanced Optical Materials 5 (2017) 1600977.