Rong Wang

2020-09-27

Rong Wang

Education Experience

University of Chinese Academy of Sciences          2012.09-2018.06

Ph.D. in  Materials Science                                        ShenZhen, China

Wuhan University of Science and Technology      2005.09-2009.06

B.S. in Metallic Materials Engineering                      WuHan, China

Job  Experience

2020.10-                    Southern University of Science and Technology           Research Assistant Professor

2018.09-2020.09        Tsinghua Shenzhen International Graduate School      Postdoctor

2009.07-2011.05        Yangchun New Steel & Iron co. Ltd                            Mechanical test engineer

Project Experience

1.Study on synthesis of novel materials for water purification and arsenic adsorption performance
ZrO2 and CeO2 nanocrystals were synthesized by alcohol-thermal process and their arsenic adsorption performances were investigated. Exceptional arsenic adsorption performance was observed. To avoid the dispersion of nanoparticles into the environment and facilitate the design of flow-through reactors, their integration into a silica monolith was implemented and the dynamic performance of removing arsenic from water was also examined.

2.Preparation of bioceramic bone repair materials by 3D printing technology
Responsible for the preparation of bioceramic bone repair materials. The bioceramic slurry was prepared using β-TCP, HA and PLA as raw materials. Three-dimensional porous biological scaffolds were created by 3D printing with the bioceramic slurry. And finally complete the production process optimization, biological evaluation and animal experiments.

3.Development of 3D printer for fine ceramic and relevant ceramic and biomaterial system
Participating in development of 3D printer for ceramic, biological and cell printing. A series of printable biological materials such as TiO2, ZrO2, HA, TCP, PLA, PLGA and collagen, have been developed.

4.3D printing of honeycomb ceramic carrier with complex structure and its performance
Participating in 3D printing of honeycomb ceramic carrier with complex structure. Novel honeycomb ceramic carrier with complex structure was fabricated by 3D printing technique to improve its strength and specific surface area. Efficient combustion catalyst was loaded on it to enhance combustion catalytic efficiency and reduce VOCs pollution.

Journal Papers

1.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.

2.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.

3.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.

4.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.

5.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.

6.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.

7.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.

Patent

1.李勃,王荣,朱朋飞,潘瑜辉. 一种堇青石蜂窝陶瓷载体及其制备方法,申请号:201910894085.5

2.李勃,王荣,朱朋飞,潘瑜辉. 钛酸锌陶瓷前驱体浆料和 3D 打印制备钛酸锌陶瓷的方法,申请号:201910891110.4

3.李琦,杨炜沂,王荣,朱朋飞,鞠小晶. 一种热场可调的太赫兹波光学窗口及其制备方法和应用,申请号:201810117461.5

4.李琦,杨炜沂,王荣,朱朋飞,鞠小晶. 一种具有超晶格结构的光学窗口及其制备方法和对太赫兹波的调控应用,申请号:201810125265.2

5.李琦,杨炜沂,王荣,朱朋飞. 一种三维生物支架及其制备方法和应用,申请号:201710651107.6

6.朱朋飞,李勃,王荣 等. 一种 3D 打印技术制造金属陶瓷器件的方法,申请号:201710854612.0

7.李琦,杨炜沂, 朱朋飞,王荣,鞠小晶. 一种响应频段实时可调的太赫兹波光子晶体器件及其制备方法和应用, 申请号:201710883104.58.李琦,杨炜沂,王荣,朱朋飞. 一种可调太赫兹波光学窗口的成型方法及其应用,申请号: 201610898039.9

8.李琦,杨炜沂,王荣,朱朋飞. 一种调控太赫兹波光学窗口响应特性的方法,申请号:201610893896.X

Confernce 

1.中国材料大会 2017,超材料与多功能复合材料分会,会议报告

2.第十一届先进陶瓷国际研讨会 CICC-11,Poster