1. Fei T, Lai Q, Zhang W J, et al. Research progress of synthesis and processing of CL-20 (in Chinese). Chin J Energetic Mater, 2021, 29: 352–368 [费腾, 来祺, 张文瑾, 等. CL-20制备及晶体研究进展. 含能材料, 2021, 29: 352–368].
2. Lang Q, Xu Y G, Lin Q H, et al. Research progress and application prospects of total and multi-nitrogen energetic compounds (in Chinese). Materials China, 2022, 41: 98–107, 139 [郎晴, 许元刚, 林秋汉, 等. 全氮多氮含能化合物研究进展与应用前景分析. 中国材料进展, 2022, 41: 98–107, 139].
3. Zhang C Y. On the energy & safety contradiction of energetic materials and the strategy for developing low-sensitive high-energetic materials (in Chinese). Chin J Energetic Mater, 2018, 26: 2–10, 123 [张朝阳. 含能材料能量-安全性间矛盾及低感高能材料发展策略. 含能材料, 2018, 26: 2–10, 123].
4. Blachowski T, Burchett J, Ostrowski P. U.S. Navy characterization of two new energetic materials: CP and BNCP. In: 38th AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit. Indianapolis, 2022. IAA2002.
5. Ronald A. Advanced Energetic Materials. Washington DC: National Academies Press, 2004.