庞思平
材料学院
职称:教授
作者:Chen, Xianqi;Li, Yaqiong;Wei, Zihao;Li, Shenghua;Pang, Siping
出处:2023 9th International Conference on Applied Materials and Manufacturing Technology, ICAMMT 2023 2023
作者:Du,Dawei1;Zhou,Jiyao1;Yin,Zilong1;Feng,Guanzheng1;Ji,Weixiao1;Huang,He1;Pang,Siping1; (1School of Materials Science & Engineering, Beijing Institute of Technology, Beijing, 100081, China;)
出处:Advanced Energy Materials 2024
关键词:aqueous Zn‐ion batteries;heteroatomic substitution;high voltage;organic electrode materials;recyclability
摘要:N-type organic compounds present themselves as promising high-capacity cathodes for aqueous Zn-ion batteries. However, a common challenge is their wor ...
作者:Wang, Zhe1, 2; Lai, Qi1; Yin, Ping1, 2; Pang, Siping1; (1School of Materials Science & Engineering, Beijing Institute of Technology, Beijing; 100081, China;2Beijing Institute of Technology Chongqing Innovation Center, Chongqing; 401120, China)
出处:ACS Applied Materials and Interfaces 2024
关键词:PERFORMANCE;STABILITY
摘要:Energetic hydrogen-bonded organic frameworks (E-HOFs), as a type of energetic material, spark fresh vitality to the creation of high energy density ma ...
作者:Ning Ding1;Qi Sun1;Xudong Xu1;Wenjin Zhang1;Chaofeng Zhao1;Shenghua Li1 2;Siping Pang1; (1 School of Materials Science & Engineering, Beijing Institute of Technology, Beijing 100081, China. 2 Yangtze Delta Region Academy of the Beijing Institute of Technology, Jiaxing 314019, China.)
出处:The Journal of organic chemistry 2024
摘要:Full nitration is one of the most effective strategies used in synthesizing high-density energetic materials, but this strategy has reached its limit ...
作者:Xinyuan Zhao1;Xun Zhang1;Yan Liu1;Siping Pang1;Chunlin He2; (1 Beijing Institute of Technology, School of Materials Science & Engineering Department, CHINA. 2 Beijing Institute of Technology, School of Materials Science & Engineering, 5 South Zhongguancun Street, Haidian District, 100081, Beijing, CHINA.)
出处:Chemistry (Weinheim an der Bergstrasse, Germany) 2024
关键词:Energetic materials;Modular synthesis;Coupling reaction* Iodine;Gas production.
摘要:Modular synthesis can combine different functional module to flexibly regulate comprehensive properties and study the diversity of compounds. This stu ...
作者:王喆,尹平,庞思平 (北京理工大学材料学院)
出处:含能材料 2024
关键词:富氮含能化合物;偶氮桥联;四唑;稠环;稳定性
摘要:以多氨基稠环化合物6,7-二氨基-3亚氨基-[1,2,4]三唑并[1,2,4]三唑连四唑(TATOT-T)为原料,经过高锰酸钾氧化偶联和高氯酸成盐等步骤,合成了一种偶氮桥联的富氮多环含能化合物2,2′-二四唑基-3,6-二氨基-7,7′-偶氮基-[1,2,4]三唑并[1,2,4]三唑高氯酸盐(2)。 ...
作者:Tian Lei1;Yan-da Jiang1;Bao-jing Tian1;Ning Ding1;Qi Sun1;
出处:Energetic Materials Frontiers 2024
关键词:Energetic salts;Amphoteric feature;Cation and anion;Stability;Structural features
摘要:Most energetic molecules can only form cations or anions, limiting the structural diversity and performance regulation. In this study, we have present ...
发明人:陈云,庞思平,邱文革
申请日期:2024.04.18
摘要:本发明涉及炭材料制备技术领域,尤其涉及一种氮掺杂超薄纳米片支架微球炭材料的制备方法。本发明微球炭材料的制备方法为将镓盐、锌盐、炭前驱体、胺类化合物和水混合,进行溶剂热反应,得到深红色粉末固体;再将深红色粉末固体在惰性气氛下进行焙烧,经酸洗、水洗、烘干得到微球炭材料。焙烧后残存的模板剂用稀盐酸即可脱除 ...
作者:Jie Li1;Yu-bing Liu1;Wen-qi Ma1;Si-ping Pang1,2;Lu Hu1;
出处:Energetic Materials Frontiers 2024
关键词:Energetic materials;Ring closure reaction;Fused ring;High energy low sensitivity;explosive;1,2,3,5-Tetrazine-2-oxide
摘要:A mild and efficient way to form fused N→O moiety by in situ ring closure reaction was proposed and studied. Compared with other methods to synthesize ...
作者:Xinyuan Zhao1;Xun Zhang1;Yuming Chen1;Qi Sun1;Zhengdi Wang1;Ningning Song1;Yan Liu2;
出处:Chemical Engineering Journal 2024
关键词:Biocidal materials;Cross coupling reactions;Energetic materials;Gas-phase spraying
摘要:Public health crises often involve bacterial and viral infections, requiring biocidal materials to stop their transmission. Current liquid biocides, s ...
