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Progress in Chemistry 2000, Vol. 12 Issue (02): 171- Previous Articles   Next Articles

• Review •

Renewed Interests in Difluoramino and Its Compounds

Feng Zengguo   

  1. School of Chemical Engineering and Materials Science,Beijing Institute of Technology, Beijing 100081, China
  • Received: Revised: Online: Published:
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Difluoramino is one of the most ideal groups in enhancing the energy density of energetic compounds. After many years of silence, research and development of the difluoramino group and its derivatives become active again. The substantial progress has been made in finding the new difluoramino compounds with low mechanical sensitivity and high thermostability. The main research now is focused on the polymerization of difluoramino substituted oxetane monomers, the preparation of neopentyl difluoramino nitrato plasticizers, and the molecular design and synthesis of cyclic N2 nitramino geminal difluoramino oxidizers.
Key words: difluoramino, oxetane, neopentyl, cyclic N2nitramino geminal difluoramino, polymer, plasticizer, oxidizer

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[1 ] Botarro J C, Chem. Indust. , 1996, (4) , 219- 252.
[2 ] Simpson R L , Urtiew P A , Ornellas D L et al. , Prop. Expl. Pyrotech. , 1997, 22 (6) , 249- 255.
[3 ] N azare A N , Asthana S N , Singh H, J. Energ. Materials, 1992, 10 (1) , 43- 65.
[4 ] Kamlet M J , Jacobs S J , J. Chem. Phys. , 1968, 48 (1) , 23- 35.
[5 ] Mul J M , Korting P A , Schōyer H F R, AIAA , 1988, 3354.
[6 ] Spear R J , Wilson W S, J. Energ. Materials, 1984, 2, 61- 149.
[7 ] 张春林(Zhang C L ) , 复合固体推进剂, 宇航出版社, 北京, 1994, 87- 89.
[8 ] Spear R J , Dagley I J , in Organic Energetic Compounds ( ed. Marinkas P L ) , Nova Science Publishers, Inc. , New York, 1996, 47.
[9 ] 郑远洋(Zheng Y Y) , 周光耀(Zhou G Y) , 张明南(Zhang M N ) , 兵工学报·火炸药专集(Acta Armamentarii: the Fascicule of Explosives and Propellants) , 1989, (1) , 17- 20.
[10 ] Zheng Y, Huang T , Zhang M , Wang X, in Proc. Intl. Symp. on Pyrotechnics and Explosives (ed.D ing J ) , China Academic Publishers, Beijing, 1987, 234.
[11 ] Archibald T G, Manser G E, WO 94/0 5643, 1994 (Chem. Abstr. , 1994, 120, 298071).
[12 ] Archibald T G, Manser G E, Immoos J E, US 5 272 249, 1995 (Chem. Abstr. , 1994, 120,(135476).
[13 ] Miller R S, Mater. Res. Soc. Symp. Proc. , 1996, 418, 3- 14.
[14 ] Chapman R D, Welker M F, Kreeutzberger C B, J. Org . Chem. , 1998, 63, 1566- 1570.
[15 ] 谭国洪(Tan G H) , 化学通报(Chemistry Bulletin) , 1998, (6) , 16- 21.
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