王海洋_北京大学力学与工程科学学院

诚聘英才院友会安全工作图书馆教工之家教育捐赠教育基地

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王海洋

助理教授、研究员、博士生导师

电子邮箱：haiyangw@pku.edu.cn

个人主页：https://faculty.pku.edu.cn/wanghaiyang/zh_CN/index.htm

教育经历：

2015.6 南京理工大学，安全工程系，博士

2012.9-2014.3马里兰大学帕克分校，机械工程系，CSC联合（无学位）

2010.6 南京理工大学，安全工程系，学士

工作经历：

2025.6-至今，北京大学，力学与工程科学学院航空航天工程系，助理教授，研究员

2024.7-2025.6，北京大学，工学院航空航天工程系，助理教授、研究员

2022.5-2024.6，美国应用材料公司，工艺工程师

博士后经历

2021.1-2022.5，美国加州大学河滨分校，博士后，项目科学家（助理）

2016.3-2019.1，美国马里兰大学帕克分校，博士后

研究方向

本课题组主要围绕金属燃料多尺度反应动力学及能量释放调控，开展金属燃料基含能材料颗粒的微观构筑与组装，颗粒的微观燃烧与反应机制，金属燃料的增材制造与性能调控，及其多尺度耦合机制等的研究。

学术服务与荣誉

含能材料杂志青年编委，2025年

美国航空航天学会最佳论文奖（AIAA Best Paper Award），2014年

Combustion and Flame, Fuel，含能材料等期刊审稿人

部分论文列表：

Wang, H., Jiang, Y., Wang, Y., Baek, J., Zheng, X. and Zachariah, M.R., 2024. Enhanced energy delivery of direct-write fabricated reactive materials with energetic graphene oxide. Combustion and Flame, 260, p.113095.
Wang, H., Wang, Y. and Zachariah, M.R., 2024. Observing coalescence of aluminum nanoparticles during burning using aluminum/ammonia perchlorate sandwiched films. Combustion and Flame, 260, p.113117.
Wang, H., Hagen, E., Shi, K., Herrera, S., Xu, F. and Zachariah, M.R., 2023. Carbon fibers as additives to engineer agglomeration and propagation of aluminized propellants. Chemical Engineering Journal, 460, p.141653.
Wang, H., Wang, Y., Garg, M., Moore, J.S. and Zachariah, M.R., 2022. Unzipping polymers significantly enhance energy flux of aluminized composites. Combustion and Flame, 244, p.112242.
Wang, H., Biswas, P. and Zachariah, M.R., 2022. Direct imaging and simulation of the interface reaction of metal/metal oxide nanoparticle laminates. The Journal of Physical Chemistry C, 126(20), pp.8684-8691.
Wang, H., Kline, D. J., Rehwoldt, M. C., & Zachariah, M. R., 2021. Carbon Fibers Enhance the Propagation of High Loading Nanothermites: In Situ Observation of Microscopic Combustion. ACS Applied Materials & Interfaces, 13, p. 30504-30511.
Wang, H., Kline, D.J., Biswas, P. and Zachariah, M.R., 2021. Connecting agglomeration and burn rate in a thermite reaction: Role of oxidizer morphology. Combustion and Flame, 231, p.111492.
Wang, H., Shen, J., Kline, D.J., Eckman, N., Agrawal, N.R., Wu, T., Wang, P. and Zachariah, M.R., 2019. Direct Writing of a 90 wt% Particle Loading Nanothermite. Advanced Materials, 31(23) p.1806575.
Wang, H.#, Kline, D.J.# and Zachariah, M.R., 2019. In-operando high-speed microscopy and thermometry of reaction propagation and sintering in a nanocomposite. Nature Communications, 10(1), p.3032. #
Wang, H., Rehwoldt, M., Kline, D.J., Wu, T., Wang, P. and Zachariah, M.R., 2019. Comparison study of the ignition and combustion characteristics of directly-written Al/PVDF, Al/Viton and Al/THV composites. Combustion and Flame, 201, pp.181-186.
Wang, H., Rehwoldt, M.C., Wang, X., Yang, Y. and Zachariah, M.R., 2019. On the promotion of high temperature AP decomposition with silica mesoparticles. Combustion and Flame, 200, pp.296-302.
Wang, H., Jacob, R.J., DeLisio, J.B. and Zachariah, M.R., 2017. Assembly and encapsulation of aluminum NP's within AP/NC matrix and their reactive properties. Combustion and Flame, 180, pp.175-183.
Wang, H., DeLisio, J.B., Jian, G., Zhou, W. and Zachariah, M.R., 2015. Electrospray formation and combustion characteristics of iodine-containing Al/CuO nanothermite microparticles. Combustion and Flame, 162(7), pp.2823-2829.
Wang, H., Jian, G., Zhou, W., DeLisio, J.B., Lee, V.T. and Zachariah, M.R., 2015. Metal iodate-based energetic composites and their combustion and biocidal performance. ACS Applied Materials & Interfaces, 7(31), pp.17363-17370.
Wang, H., Jian, G., Egan, G.C. and Zachariah, M.R., 2014. Assembly and reactive properties of Al/CuO based nanothermite microparticles. Combustion and Flame, 161(8), pp.2203-2208.
Wang, H., Jian, G., Yan, S., DeLisio, J.B., Huang, C. and Zachariah, M.R., 2013. Electrospray formation of gelled nano-aluminum microspheres with superior reactivity. ACS Applied Materials & Interfaces, 5(15), pp.6797-6801.