教育背景
2017/09-2020/07 香港城市大学 博 士
2014/09-2017/03 南京理工大学 硕 士
2010/09-2014/06 南京理工大学 本 科
工作经历
2022/07-现在 新浦的京集团350vip8888 预聘副教授
2020/07–2022/07 香港城市大学 博士后
2017/05–2017/08 香港城市大学 研究助理
研究成果
主要从事微纳米含能材料及电磁毁伤技术相关研究,包括微纳结构含能材料的设计制备、含能芯片的安全可靠集成、电磁毁伤材料设计及应用等。主持由装备发展部、国家重点实验室、国防重点实验室等资助的科研项目。发表SCI论文20余篇,参与专著撰写1部,授权发明专利4项。
1. 代表性期刊论文和专著:
[1] X. Ma, Y. Li, H. Iftikhar, R. Shen*, G. Yang*, K. Zhang*, Core-shell Structured Nanoenergetic Materials: Preparation and Fundamental Properties, Advanced Materials, 2020, 2001291.
[2] I. Hussain, X. Ma*, K. Zhang*, Hollow nano- and microstructures: Mechanism, composition, applications and factor affecting morphology and performance. Coordination Chemistry Reviews, 2022,458,214429.
[3] X. Ma, S. Gu, Y. Li, J. Lu, G. Yang, K. Zhang*, Additive-free energetic film based on graphene oxide and nanoscale energetic coordination polymer for transient microchip, Advanced Functional Materials, 2021, 2103199.
[4] Y. Li, X. Chen, L. Zhang, R. Han, I. Iftikhar, X. Ma*, K. Zhang*, Tunable Synthesis of Co(Oh)F@Al Nanobelt Array on Various Substrates for Mems Compatible Nano-Energetics, Chemical Engineering Journal, 2023.
[5] X. Ma, Y. Zhu, S. Cheng, H. Zheng, Y. Liu, Z. Qiao, G. Yang*, K. Zhang*, Energetic Composites based on Nano-Al and Energetic Coordination Polymers (ECPs): The “Father-son” Effect of ECPs, Chemical Engineering Journal, 2020, 392, 123719.
[6] X. Ma, K. Cao, X. Huang, S. Yang, Y. Ye, R. Shen, G. Yang, K. Zhang*, In Situ Synthesized MEMS Compatible Energetic Arrays based on Energetic Coordination Polymer and Nano-Al with Tunable Properties, ACS Applied Materials & Interfaces, 2020, 12, 30740-30749.
[7] X. Ma*, S. Cheng, Y. Hu*, Y. Ye, R. Shen, Integrating Micro-ignitors with Al/Bi2O3/graphene Oxide Composite Energetic Films to Realize Tunable Ignition Performance. Journal of Applied Physics, 2018, 123, 095305.
[8] X. Ma*, X. Chen, Y. Li, Z. Qiao, G. Yang, K. Zhang*, Aluminized energetic coordination polymers constructed from transition metal centers (Co, Ni and Cu). Propellants, Explosives & Pyrotechnics, 2021, 46, 1-14.
[9] X. Ma, S. Y. Chan, J. Zhou, Y. Chen, G. Yang*, K. Zhang*, Graphene oxide induced nanoscale energetic coordination polymer with self-sustaining combustion ability, Energetic Materials Frontiers, 2020, 1, 51-58.
[10] X. Ma, K. Zhang, Preparation and Energetic Properties of Nanothermites Based on Core-Shell Structure, In Innovative Energetic Materials: Properties, Combustion Performance and Application, Springer Nature, Singapore, 2020.
2.代表性发明专利
[1] 马小霞,张开黎。一种含能材料及其制备方法与应用,202110598277.9。
[2] 马小霞,朱莹,吕坚,张开黎。基于含能配位聚合物和纳米铝粉的含能材料及其制备方法,201910438872.9。
[3] 朱莹,马小霞,吕坚,张开黎。基于微加热器和结构含能材料的微小型点火器及其制备,201910404498.0。
[4] 胡艳,李家宽,马小霞,吴立志,叶迎华,沈瑞琪。一种铝-氧化铜-氧化石墨烯三元复合材料的含能薄膜及其制备方法,CN105780089B。
[5] 胡艳,李家宽,马小霞,吴立志,叶迎华,沈瑞琪。一种Al-CuO/氧化石墨烯复合薄膜及其制备方法,CN105734644B。
教学工作
1. 本科生《现代战争的障眼术—隐身与诱骗》
2. 本科生《光电对抗材料基础》
3. 研究生《军用功能材料》
所获奖励
1. 香港城市大学研究生学术成就奖
社会兼职
1. 《Defence Technology》和《FirePhysChem》期刊的青年编委
2. 《Chemical Engineering Journal》、《Journal of Composites Science》、《Energies》、《Polymers》、《Molecules》、《Defence Technology》等期刊的审稿人
研究方向
微纳米含能材料及器件;电磁毁伤技术