性别：女

最高学历：博士

系室：应用化学

招生专业：材料与化工、化学工程与技术、化学

QQ：1035658673

邮箱：y[email protected]

个人简介：

王玉洁，硕士生导师，主要从事含能材料、固体推进剂、固体燃料燃烧、高能密度高固含量3D打印等方面的研究。在Advanced Functional Materials、Angewandte Chemie、Journal of the American Chemical Society、Chemical Engineering Journal、Combustion and Flame、ACS Applied Materials & Interfaces、Chemical Engineering Science、Chemistry of Materials等期刊发表SCI论文39篇，授权专利1项。

教育背景及学习经历：

2019.09 – 2024.06        加州大学河滨分校工学院      化学与环境工程/博士

2015.05 – 2019.05        爱荷华州立大学工学院        化学工程/硕士

2010.09 – 2014.06        河南大学化学化工学院        化学工程与工艺/学士

科研情况：

◉ 主要研究方向：

1. 含能材料

2. 固体推进剂

3. 固体燃料燃烧

4. 3D打印

◉ 近5年科研项目：

1、美国国防威胁降低局, Materials Science in Extreme Environments, 参与。

2、美国海军研究办公室, Nanoclusters and their Mesoparticle Composites as Additives for Solid-Fuel Air-Breathing Propulsion, 参与。

3、美国陆军研究实验室, Probing the Reaction Zone at ~µs time and ~µm Spatial Resolution to obtain Structure-Function Relationships, 参与。

◉ 近5年科研论文：

1. Wang, Y., Chowdhury, M., Zhou, Y., Issac Paul, G., Shi, K., Zachariah. M.R. (2024). Oscillating-to-continuous combustion transition in mesoparticle composites through manipulation of heat feedback. Advanced Functional Materials. 34(42), 2406722.

2. Wang, Y., Wang, H., Xu, F., Ghildiyal, P., & Zachariah, M. R. (2022). Effect of alkali metal perchlorate and iodate type on boron ignition: The role of oxidizer phase change. Chemical Engineering Journal, 446, 136786.

3. Kumar Vasudevan.^#, Wang, Y.^#, Biswas, P., Shi, K., Zachariah. M.R. (2024). Controlled release of diborane from alkali metal borohydride using ionic liquid-based Lewis acids for air breathing applications. Angewandte Chemie, e202401743.

4. Wang, Y., Hagen, E., Biswas, P., Wang, H., & Zachariah, M. R. (2023). Imaging the combustion characteristics of Al, B, and Ti composites. Combustion and Flame, 252, 112747.

5. Wang, Y., Shi, K., Paul, G. I., Biswas, P., & Zachariah, M. R. (2024). Combustion behavior of aluminized metal iodate composites. Part 1: Decomposition mechanism of metal iodates. Combustion and Flame, 262, 113372.

6. Wang, Y., Paul, G. I., Hagen, E., Wang, H., & Zachariah, M. R. (2024). Combustion behavior of aluminized metal iodate composites. Part 2: Iodine and energy release rate. Combustion and Flame, 262, 113373.

7. Wang, H.^#, Wang, Y.^#, Zachariah, M. R. (2024). Observing coalescence of aluminum nanoparticles during burning using aluminum/ammonia perchlorate sandwiched films. Combustion and Flame, 260, 113117.

8. Shi, K.^#, Wang, Y.^#, Issac Paul, G., Zachariah. M.R. (2024). The influence of heat feedback and thermal conductivity on the burn rate of nanothermite composites. Combustion and Flame. 269, 113593.

9. Wang, Y., Xu, F., Issac Paul, G., Vidales Pasos, E., Shi, K., Wagner, B., Mangolini, L., Zachariah. M.R. (2024).  Role of surface tension on heat feedback and power from energetic composites. ACS Applied Materials & Interfaces. 16(32), 42100-42108.

10. Rehwoldt, M.^#., Wang, Y.^#, Xu, F., Ghildiyal, P., & Zachariah, M. R. (2022). High-temperature interactions of metal oxides and a PVDF binder. ACS Applied Materials & Interfaces, 14(7), 8938-8946.

11. Wang, Y., Issac Paul, G., Zachariah. M.R. Investigating the combustion behavior of Al/AP composites with high-speed videography. (2025) International Journal of Energetic Materials and Chemical Propulsion. 24(3), 1-9.

12. Wang, H.^#, Jiang, Y.^#, Wang, Y.^#, Kline, D., Zheng, X., and Zachariah, M. R. (2022). “Do we need perfect mixing between fuel and oxidizer to maximize the energy release rate of energetic nanocomposites?” Applied Physics Letters. 122 (1). 

13. Biswas, P., Wang, Y., Hagen, E., & Zachariah, M. R. (2023). Electrochemical modulation of the flammability of ionic liquid fuels. Journal of the American Chemical Society, 145(30), 16318-16323.

14. Shi, K., Wang, Y., Zachariah. M.R. (2024). Microwave antenna focusing for spatially resolved modulation of burn rate. Chemical Engineering Journal. 492, 152192.

15. Biswas, P., Wang, Y., Herrera, S., Ghildiyal, P., & Zachariah, M. R. (2023 Catalytic cleavage of the dative bond of ammonia borane by polymeric carbonyl groups for enhanced energy generation. Chemistry of Materials, 35(3), 954-963.

16. Wang, H., Wang, Y., Garg, M., Moore, J. S., & Zachariah, M. R. (2022). Unzipping polymers significantly enhance energy flux of aluminized composites. Combustion and Flame, 244, 112242.

17. Jiang, Y., Wang, Y., Baek, J., Wang, H., Gottfried, J.L., Wu, C.C., Shi, X., Zachariah, M.R. and Zheng, X. (2022). Ignition and combustion of Perfluoroalkyl-functionalized aluminum nanoparticles and nanothermite. Combustion and Flame, 242, 112170.

18. Shi, K., Wang, Y., Xu, F., and Zachariah, M. R. (2023). Remote microwave heating and ignition with an embedded receiving antenna within nanocomposites. Chemical Engineering Science, 118948.

◉ 专利：

1. Zachariah. M.R., Biswas, P., Wang, Y., "Electrochemical modulation of the flammability of ionic liquid fuels." USA，2024, US 20240279822A1