Page 18 - 《含能材料》2018年优秀论文
P. 18
全 氮 五 唑 化 合 物 研 究 进 展 997
参考文献: lar cell by electrophoretic deposition of CdSe quantum dots on
[1] 李玉川,庞思平 . 全氮型超高能含能材料研究进展[J]. 火炸药学 ZnO nanorods [J]. Physical Chemistry Chemical Physics,
报,2012,35(1):1-8. 2011,13(29):13182-13184.
LI Yu⁃chuan, PANG Si⁃ping. Progress of all⁃nitrogen ultra⁃ [17] Samartzis P C,Hansen N,Wodtke A M. Imaging CIN(3)pho⁃
high⁃energetic materials[J]. Chinese Journal of Explosive & todissociation from 234 to 280 nm[J]. Physical Chemistry
Propellants,2012,35(1):1-8. Chemical Physics,2006,8(25):2958-2963.
[2] 卢艳华,何金选,雷晴,等 . 全氮化合物研究进展[J]. 化学推进 [18] Hansen N,Wodtke A M,Komissarov A V,et al. Ion dissocia⁃
+
剂与高分子材料,2013,2(3):28-34. tion dynamics of the chlorine azide cation(ClN 3 )investigat⁃
LU Yan⁃hua,HE Jin⁃xuan,Lei Qing,et al. Research progress ed by velocity map imaging[J]. Journal of Chemical Physics,
in all⁃nitrogen compounds[J]. Chemical Propellants & Poly⁃ 2003,118(23):10485-10493.
meric Materials,2013,2(3):28-34. [19] Zhang P,Morokuma K,Wodtke A M. High⁃level ab initio
[3] Zarko V E. Searching for ways to create energetic materials studies of unimolecular dissociation of the ground⁃state N 3 rad⁃
based on polynitrogen compounds (review)[J]. Combustion ical[J]. Journal of Chemical Physics,2005,122(1):14106.
Explosion & Shock Waves,2010,46(2):121-131. [20] Babikov D,Kendrick B K,Zhang P,et al. Cyclic⁃N 3 . II. Signifi⁃
[4] Wodtke A M. All⁃nitrogen chemistry:how far are we from cant geometric phase effects in the vibrational spectra[J]. Jour⁃
N60?[J]. International Reviews in Physical Chemistry,2006, nal of Chemical Physics,2005,122(4):9740.
25(4):527-552. [21] Babikov D,Zhang P,Morokuma K. Cyclic⁃N 3 . I. An accurate
[5] Nguyen M T,Mcginn M A,Hegarty A F,et al. Can the pen⁃ potential energy surface for the ground doublet electronic state
⁃
tazole anion(N 5 ) be isolated and / or trapped in metal com⁃ up to the energy of the 2A2/2B1 conical intersection[J]. Jour⁃
plexes?[J]. Polyhedron,1985,4(10):1721-1726. nal of Chemical Physics,2004,121(14):6743-6749.
+
-
[6] Blanco F,Alkorta I,Elguero J. The structure of alkali metal de⁃ [22] Fau S,K W J Bartlett R J. On the stability of N 5 N 5 [J]. Journal
rivatives of azoles:N⁃sigma versus pi structures[J]. Journal of of Physical Chemistry A,2002,106(18):725-737.
Physical Chemistry A,2008,112(33):7682. [23] Glukhovtsev M N,Jiao H,Schleyer P R. Besides N(2),What
[7] Christe K O,Wilson W W,Sheehy J A,et al. N 5 :A novel ho⁃ is the most stable molecule composed only of nitrogen atoms?
+
moleptic polynitrogen ion as a high energy density material[J]. [J]. Inorganic Chemistry,1996,35(24):7124.
Angewante Chemie International Edtion,1999,111:2112- [24] Lein M,Frunzke J,Timoshkin A,et al. Iron bispentazole Fe
5
2118. (η ⁃N 5 ) 2 , a theoretically predicted high⁃energy compound:
[8] Ashwani V,William W W,Vandana V,et al. Polynitrogen Structure,bonding analysis,metal⁃ligand bond strength and a
chemistry. synthesis,characterization,and crystal structure of comparison with the isoelectronic ferrocene[J]. Chemistry⁃A
surprisingly stable fluoroantimonate salts of N 5 [J]. Journal of European Journal,2015,7(19):4155-4163.
+
the American Chemical Society,2001,32(40):6308-6313. [25] Straka M,Pyykkö† P. One metal and forty nitrogens. Ab initio
[9] William W. W,Ashwani V,Vandana V,et al. Polynitrogen predictions for possible new high⁃energy pentazolides[J].
chemistry: preparation and characterization of (N 5 ) 2 SnF 6 , Cheminform,2004,35(8):8241-8249.
N 5 SnF 5 ,and N 5 B(CF 3 ) 4 [J]. Chemistry,2003,9(12):2839- [26] Huisgen R,Ugi I. Zur Lösung eines klassischen problems der
2844. organischen stickstoff⁃chemie[J]. Angewante Chemie Interna⁃
[10] Ralf H,Stefan S,Thorsten S,Christe K O. High⁃energy⁃densi⁃ tional Edtion,1956,68:705-706.
-
+
ty materials:Synthesis and characterization of N 5 P(N 3 ) 6 , [27] Zhang C,Sun C,Hu B,et al. Synthesis and characterization
N 5 B(N 3 ) 4 ,N 5 HF 2 ·nHF,N 5 BF 4 ,N 5 PF 6 ,and N 5 SO 3 F - of the pentazolate anion cyclo⁃N 5 in(N 5 ) 6 (H 3 O) 3 (NH 4 ) 4 Cl
-
+
+
+
-
+
-
⁃
-
+
[J]. Angewante Chemie International Edtion,2004,116(37): [J]. Science,2017,355(6323):374.
5027-5032. [28] Hantzsch A. Ueber diazoniumazide,Ar. N 5 [J]. Berichte Der
[11] Cacace F,De P G,Troiani A. Experimental detection of tetra⁃ Deutschen Chemischen Gesellschaft,1903,36(2):2056-
nitrogen[J]. Science,2002,295(5554):480-481. 2058.
[12] Hansen N,Wodtke A M. Velocity map ion imaging of chlo⁃ [29] Ivar U,Rolf H. Pentazole,II.die zerfallsgeschwindigkeit der ar⁃
rine azide photolysis:Evidence for photolytic production of cy⁃ yl⁃pentazole[J]. European Journal of Inorganic Chemistry,
clic⁃N 3 [J]. Journal of Physical Chemistry A,2003,107(49): 1958,91(3):531-537.
10608-10614. [30] Ivar U,Hans P,Liselotte B. Die reduktion von alkyl⁃und ar⁃
[13] Samartzis P C,Lin J J,Ching T T,et al. Two photoionization yl⁃adiden mit alkalischem arsenit. Chemische Bericht,1958,
thresholds of N 3 produced by ClN 3 photodissociation at 91(11):2330-2336.
248 nm:further evidence for cyclic N 3 [J]. Journal of Chemi⁃ [31] Zhang C,Sun C,Hu B,Lu Ming. Investigation on the stability
cal Physics,2005,123(5):2177. of multisubstituted arylpentazoles and the influence on the
[14] Hansen N,Wodtke A M,Goncher S J,et al. Photofragment generation of pentazolate anion. Journal of Energetic Materi⁃
translation spectroscopy of ClN 3 at 248 nm:Determination of als,2016,34(1):103-111.
the primary and secondary dissociation pathways[J]. Journal [32] Ugi I,Huisgen R. Pentzole Ⅱ,die zerfallsgeschwindigkeit der
of Chemical Physics,2005,123(10):104305. aryl⁃pentazole[J]. Chemische Berichte,1961,91:531-537.
[15] Wodtke A M,Hansen N,Robinson J C,et al. The Cl to NCl [33] Peter C,Henrik A Ö,Tore B. The stability of arylpentazoles
branching ratio in 248⁃nm photolysis of chlorine azide[J]. [J]. Journal of Physical Chemistry A,2004,108(36):7463-
Chemical Physics Letters,2004,391(4):334-337. 7467.
[16] Chen J,Lei W,Li C,et al. Flexible quantum dot sensitized so⁃ [34] Vij A,Pavlovich J G,Wilson W W,et al. Experimental detec⁃
CHINESE JOURNAL OF ENERGETIC MATERIALS 含能材料 2018 年 第 26 卷 第 11 期 (991-998)