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References (48)
-
Jiaheng Zhang, Srinivas Dharavath, Lauren Mitchell, D. Parrish, J. Shreeve (2016)
Bridged bisnitramide-substituted furazan-based energetic materialsJournal of Materials Chemistry, 4
-
Chunlin He, Yongxing Tang, Lauren Mitchell, D. Parrish, J. Shreeve (2016)
N-Oxides light up energetic performances: synthesis and characterization of dinitraminobisfuroxans and their saltsJournal of Materials Chemistry, 4
-
K. Suponitsky, K. Lyssenko, I. Ananyev, A. Kozeev, A. Sheremetev (2014)
Role of Weak Intermolecular Interactions in the Crystal Structure of Tetrakis-furazano[3,4-c:3 ',4 '-g:3 '',4 ''-k:3 ''', 4 '''-o][1,2,5,6,9,10,13,14]octaazacyclohexadecine and Its SolvatesCrystal Growth & Design, 14
-
Qi Sun, Cheng Shen, Xin Li, Qiuhan Lin, Ming Lu (2017)
Combination of four oxadiazole rings for the generation of energetic materials with high detonation performance, low sensitivity and excellent thermal stabilityJournal of Materials Chemistry, 5
-
I. Kuchurov, M. Zharkov, L. Fershtat, N. Makhova, S. Zlotin (2017)
Prospective Symbiosis of Green Chemistry and Energetic Materials.ChemSusChem, 10 20
-
I. Ananyev, V. Karnoukhova, A. Dmitrienko, K. Lyssenko (2017)
Toward a Rigorous Definition of a Strength of Any Interaction Between Bader's Atomic Basins.The journal of physical chemistry. A, 121 23
-
Roman Tsyshevsky, P. Pagoria, Maoxian Zhang, A. Racoveanu, Alan Dehope, D. Parrish, M. Kuklja (2015)
Searching for Low-Sensitivity Cast-Melt High-Energy-Density Materials: Synthesis, Characterization, and Decomposition Kinetics of 3,4-Bis(4-nitro-1,2,5-oxadiazol-3-yl)-1,2,5-oxadiazole-2-oxideJournal of Physical Chemistry C, 119
-
Qinghua Zhang, J. Shreeve (2014)
Energetic ionic liquids as explosives and propellant fuels: a new journey of ionic liquid chemistry.Chemical reviews, 114 20
-
Chunlin He, J. Shreeve (2016)
Potassium 4,5-Bis(dinitromethyl)furoxanate: A Green Primary Explosive with a Positive Oxygen Balance.Angewandte Chemie, 55 2
-
D. Fischer, T. Klapötke, M. Reymann, Jörg Stierstorfer, M. Völkl (2015)
Energetic alliance of tetrazole-1-oxides and 1,2,5-oxadiazolesNew Journal of Chemistry, 39
-
T. Klapötke, Carolin Pflüger (2017)
3-Nitramino-4-nitrofurazan: Enhancing the Stability and Energetic Properties by Introduction of AlkylnitraminesZeitschrift für anorganische und allgemeine Chemie, 643
-
Yongxing Tang, Chunlin He, J. Shreeve (2017)
A furazan-fused pyrazole N-oxide via unusual cyclizationJournal of Materials Chemistry, 5
-
M. Kettner, T. Klapötke (2014)
5,5'-Bis-(trinitromethyl)-3,3'-bi-(1,2,4-oxadiazole): a stable ternary CNO-compound with high density.Chemical communications, 50 18
-
I. Dalinger, I. Vatsadze, T. Shkineva, A. Kormanov, M. Struchkova, K. Suponitsky, A. Bragin, K. Monogarov, V. Sinditskii, A. Sheremetev (2015)
Novel Highly Energetic Pyrazoles: N-Trinitromethyl-Substituted Nitropyrazoles.Chemistry, an Asian journal, 10 9
-
D. Kumar, Gregory Imler, D. Parrish, J. Shreeve (2017)
A Highly Stable and Insensitive Fused Triazolo-Triazine Explosive (TTX).Chemistry, 23 8
-
M. Coburn (1968)
Picrylamino-substituted heterocycles. II. Furazans†‡Journal of Heterocyclic Chemistry, 5
-
L. Fershtat, I. Ananyev, N. Makhova (2015)
Efficient assembly of mono- and bis(1,2,4-oxadiazol-3-yl)furoxan scaffolds via tandem reactions of furoxanylamidoximesRSC Advances, 5
-
D. Fischer, T. Klapötke, Jörg Stierstorfer (2014)
Synthesis and Characterization of DiaminobisfuroxaneEuropean Journal of Inorganic Chemistry, 2014
-
Dennis Fischer, Th. Klapötke, Marius Reymann, Jörg Stierstorfer (2014)
Dense energetic nitraminofurazanes.Chemistry, 20 21
-
D. Chavez, D. Parrish, Philip Leonard (2012)
The Synthesis and Characterization of a New Furazan Heterocyclic SystemSynlett, 23
-
T. Ichikawa, Tetsuya Kato, T. Takenishi (1965)
A new synthesis of adenine and 4-aminoimidazole-5-carboxamideJournal of Heterocyclic Chemistry, 2
-
E. Espinosa, E. Molins, C. Lecomte (1998)
Hydrogen bond strengths revealed by topological analyses of experimentally observed electron densitiesChemical Physics Letters, 285
-
Jacqueline Veauthier, D. Chavez, B. Tappan, D. Parrish (2010)
Synthesis and Characterization of Furazan Energetics ADAAF and DOATFJournal of Energetic Materials, 28
-
Xuan Huang, R. Gillies, Haibin Tian (2015)
Synthesis of [(18) F] 4-amino-N-(3-chloro-4-fluorophenyl)-N'-hydroxy-1,2,5-oxadiazole-3-carboximidamide (IDO5L): a novel potential PET probe for imaging of IDO1 expression.Journal of labelled compounds & radiopharmaceuticals, 58 4
-
N. Muravyev, K. Monogarov, A. Bragin, I. Fomenkov, A. Pivkina (2016)
HP-DSC study of energetic materials. Part I. Overview of pressure influence on thermal behaviorThermochimica Acta, 631
-
I. Ovchinnikov, A. Finogenov, M. Epishina, A. Kulikov, Y. Strelenko, N. Makhova (2009)
Nitrosation of salts of 1-hydroxyimino-2,2-dinitro-1-R-ethanes, a novel method for the preparation of isomeric 3(4)-nitro-4(3)-R-furoxansRussian Chemical Bulletin, 58
-
Jiaheng Zhang, J. Shreeve (2014)
3,3'-Dinitroamino-4,4'-azoxyfurazan and its derivatives: an assembly of diverse N-O building blocks for high-performance energetic materials.Journal of the American Chemical Society, 136 11
-
L. Fershtat, A. Larin, M. Epishina, A. Kulikov, I. Ovchinnikov, I. Ananyev, N. Makhova (2016)
Regioselective synthesis of bifuroxanyl systems with the 3-nitrobifuroxanyl core via a one-pot acylation/nitrosation/cyclization cascadeTetrahedron Letters, 57
-
K. Suponitsky, K. Lyssenko, M. Antipin, N. Aleksandrova, A. Sheremetev, T. Novikova (2009)
4,4′-Bis(nitramino)azofurazan and its salts. Study of molecular and crystal structure based on X-ray and quantum chemical dataRussian Chemical Bulletin, 58
-
Yongxing Tang, Chunlin He, Lauren Mitchell, D. Parrish, J. Shreeve (2016)
Small Cation-Based High-Performance Energetic Nitraminofurazanates.Chemistry, 22 33
-
S. Zlotin, A. Churakov, O. Luk’yanov, N. Makhova, A. Sukhorukov, V. Tartakovsky (2015)
Novel approaches to pharmacology-oriented and energy rich organic nitrogen–oxygen systemsMendeleev Communications, 25
-
I. Ovchinnikov, N. Makhova, L. Khmel’nitskii, V. Kuz’min, L. Akimova, V. Pepekin (1998)
DINITRODIAZENOFUROXAN AS A NEW ENERGETIC EXPLOSIVEDoklady Chemistry, 359
-
L. Fershtat, M. Epishina, A. Kulikov, I. Ovchinnikov, I. Ananyev, N. Makhova (2015)
An efficient access to (1H-tetrazol-5-yl)furoxan ammonium salts via a two-step dehydration/[3+2]-cycloaddition strategyTetrahedron, 71
-
L. Fershtat, A. Larin, M. Epishina, I. Ovchinnikov, A. Kulikov, I. Ananyev, N. Makhova (2016)
Design of hybrid heterocyclic systems with a furoxanylpyridine core via tandem hetero-Diels–Alder/retro-Diels–Alder reactions of (1,2,4-triazin-3-yl)furoxansRSC Advances, 6
-
L. Fershtat, N. Makhova (2016)
Advances in the synthesis of non-annelated polynuclear heterocyclic systems comprising the 1,2,5-oxadiazole ringRussian Chemical Reviews, 85
-
J. Holmes, C. Aubry (2012)
Group additivity values for estimating the enthalpy of formation of organic compounds: an update and reappraisal. 2. C, H, N, O, S, and halogens.The journal of physical chemistry. A, 116 26
-
J. P. Agrawal, R. D. Hodgson (2007)
Organic Chemistry of Explosives -
L. Liang, Kai Wang, C. Bian, Liming Ling, Zhiming Zhou (2013)
4-Nitro-3-(5-tetrazole)furoxan and its salts: synthesis, characterization, and energetic properties.Chemistry, 19 44
-
M. Kamlet, S. Jacobs (1968)
Chemistry of Detonations. I. A Simple Method for Calculating Detonation Properties of C–H–N–O ExplosivesJournal of Chemical Physics, 48
-
Zhen Xu, G. Cheng, Hongwei Yang, X. Ju, P. Yin, Jiaheng Zhang, J. Shreeve (2017)
A Facile and Versatile Synthesis of Energetic Furazan-Functionalized 5-Nitroimino-1,2,4-Triazoles.Angewandte Chemie, 56 21
-
L. Fershtat, M. Struchkova, A. Goloveshkin, I. Bushmarinov, N. Makhova (2014)
Dinitrogen Trioxide–Mediated Domino Process for the Regioselective Construction of 4‐Nitrofuroxans from Acrylic AcidsHeteroatom Chemistry, 25
-
L. Fershtat, M. Epishina, I. Ovchinnikov, M. Struchkova, A. Romanova, I. Ananyev, N. Makhova (2016)
Side-chain prototropic tautomerism of 4-hydroxyfuroxans in methylation reactionsTetrahedron Letters, 57
-
Yuji Liu, Jiaheng Zhang, Kangcai Wang, Jinshan Li, Qinghua Zhang, J. Shreeve (2016)
Bis(4-nitraminofurazanyl-3-azoxy)azofurazan and Derivatives: 1,2,5-Oxadiazole Structures and High-Performance Energetic Materials.Angewandte Chemie, 55 38
-
N. Gamage, Benedikt Stiasny, Jörg Stierstorfer, Philip Martin, T. Klapötke, Charles Winter (2015)
Less sensitive oxygen-rich organic peroxides containing geminal hydroperoxy groups.Chemical communications, 51 68
-
Srinivas Dharavath, Jiaheng Zhang, Gregory Imler, D. Parrish, J. Shreeve (2017)
5-(Dinitromethyl)-3-(trinitromethyl)-1,2,4-triazole and its derivatives: a new application of oxidative nitration towards gem-trinitro-based energetic materialsJournal of Materials Chemistry, 5
-
P. Yin, Qinghua Zhang, J. Shreeve (2016)
Dancing with Energetic Nitrogen Atoms: Versatile N-Functionalization Strategies for N-Heterocyclic Frameworks in High Energy Density Materials.Accounts of chemical research, 49 1
-
Hao Wei, Chunlin He, Jiaheng Zhang, J. Shreeve (2015)
Combination of 1,2,4-Oxadiazole and 1,2,5-Oxadiazole Moieties for the Generation of High-Performance Energetic Materials.Angewandte Chemie, 54 32
-
T. Klapötke, Tomasz Witkowski (2015)
Nitrogen‐Rich Energetic 1,2,5‐Oxadiazole‐Tetrazole – Based Energetic MaterialsPropellants, Explosives, Pyrotechnics, 40
- Publisher
- Wiley
- Copyright
- © 2017 Wiley‐VCH Verlag GmbH & Co. KGaA, Weinheim
- ISSN
- 2192-6506
- eISSN
- 2192-6506
- DOI
- 10.1002/cplu.201700340
- Publisher site
- See Article on Publisher Site
Abstract
The design of novel energetic materials with improved performance, optimized parameters, and environmental compatibility remains a challenging task. In this study, new high‐energy materials based on isomeric dinitrobi‐1,2,5‐oxadiazole structures comprising nitrofurazan and nitrofuroxan subunits were synthesized. Due to planarity and strong noncovalent interactions, these materials display high density values as determined by single‐crystal X‐ray diffraction. The thermal, impact, and friction sensitivities of both isomers are similar to that of nitroesters. Their high detonation performance along with the combined benefits of high density, high heat of formation, and good oxygen balance make the synthesized compounds promising as explosives and highly‐energetic oxidizers.
Journal
ChemPlusChem – Wiley
Published: Jan 1, 2017
Keywords: ; ; ; ;