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• W3158361078 abstract "Abstract Energetic materials have been widely used in both military and civilian fields. The development of new high‐energy materials with improved performance and enhanced stability is critical for promoting future military and space applications. Recently, researchers in the field of energetic materials have paid significant attention to oxadiazole‐based energetic compounds, among which 1,3,4‐oxadiazole demonstrates moderate energy levels and better stability, owing to the absence of readily cleaved N−O bonds compared with other oxadiazole isomers, such as 1,2,4‐oxadiazole and 1,2,5‐oxadiazole. Therefore, 1,3,4‐oxadiazole is an exceptional explosophoric motif with an efficient compromise between energy and stability, and several outstanding energetic materials have been achieved based on the combination of 1,3,4‐oxadiazole units with various functional groups or rings, such as polynitrobenzene, furazan, pyrazole, and 1,3,4‐oxadiazole itself. This review provides an overview of the development of 1,3,4‐oxadiazole‐based energetic materials during the past few years, outlines their synthesis and energetic performance, and contrasts them with other conventional energetic materials. Owing to the convenience of the synthetic routes and their excellent energetic properties, energetic materials based on the 1,3,4‐oxadiazole skeleton may be considered as the next‐generation of high‐performance energetic materials specifically as heat‐resistant explosives or insensitive explosives." @default.
• W3158361078 created "2021-05-10" @default.
• W3158361078 creator A5001361182 @default.
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• W3158361078 creator A5068577164 @default.
• W3158361078 date "2021-04-23" @default.
• W3158361078 modified "2023-10-16" @default.
• W3158361078 title "Review on the Synthesis and Performance for 1,3,4‐Oxadiazole‐Based Energetic Materials" @default.
• W3158361078 cites W110210304 @default.
• W3158361078 cites W1584334983 @default.
• W3158361078 cites W1797268431 @default.
• W3158361078 cites W1823519815 @default.
• W3158361078 cites W1893225750 @default.
• W3158361078 cites W1967265312 @default.
• W3158361078 cites W1975549753 @default.
• W3158361078 cites W1977412078 @default.
• W3158361078 cites W1985139469 @default.
• W3158361078 cites W1993203365 @default.
• W3158361078 cites W1998930027 @default.
• W3158361078 cites W1999301312 @default.
• W3158361078 cites W2014436389 @default.
• W3158361078 cites W2016052181 @default.
• W3158361078 cites W2024150446 @default.
• W3158361078 cites W2024629238 @default.
• W3158361078 cites W2026563033 @default.
• W3158361078 cites W2034495537 @default.
• W3158361078 cites W2048861286 @default.
• W3158361078 cites W2053084769 @default.
• W3158361078 cites W2053158247 @default.
• W3158361078 cites W2057821235 @default.
• W3158361078 cites W2058602005 @default.
• W3158361078 cites W2059088237 @default.
• W3158361078 cites W2077597412 @default.
• W3158361078 cites W2088601446 @default.
• W3158361078 cites W2102658732 @default.
• W3158361078 cites W2110328444 @default.
• W3158361078 cites W2120453780 @default.
• W3158361078 cites W2125368527 @default.
• W3158361078 cites W2125455638 @default.
• W3158361078 cites W2125544976 @default.
• W3158361078 cites W2142825902 @default.
• W3158361078 cites W2143345060 @default.
• W3158361078 cites W2143651372 @default.
• W3158361078 cites W2160684032 @default.
• W3158361078 cites W2236399767 @default.
• W3158361078 cites W2274207873 @default.
• W3158361078 cites W2291002887 @default.
• W3158361078 cites W2294426813 @default.
• W3158361078 cites W2313321144 @default.
• W3158361078 cites W2316408286 @default.
• W3158361078 cites W2320159987 @default.
• W3158361078 cites W2331900390 @default.
• W3158361078 cites W2346183241 @default.
• W3158361078 cites W2486524305 @default.
• W3158361078 cites W2518573454 @default.
• W3158361078 cites W2532777713 @default.
• W3158361078 cites W2560680641 @default.
• W3158361078 cites W2563892048 @default.
• W3158361078 cites W2571957642 @default.
• W3158361078 cites W2581542667 @default.
• W3158361078 cites W2582556134 @default.
• W3158361078 cites W2586637063 @default.
• W3158361078 cites W2610602585 @default.
• W3158361078 cites W2650276197 @default.
• W3158361078 cites W2736710529 @default.
• W3158361078 cites W2767877751 @default.
• W3158361078 cites W2771839186 @default.
• W3158361078 cites W2800194617 @default.
• W3158361078 cites W2804201331 @default.
• W3158361078 cites W2890809494 @default.
• W3158361078 cites W2892109908 @default.
• W3158361078 cites W2899099616 @default.
• W3158361078 cites W2906736340 @default.
• W3158361078 cites W2911428850 @default.
• W3158361078 cites W2913528963 @default.
• W3158361078 cites W2949374473 @default.
• W3158361078 cites W2951385066 @default.
• W3158361078 cites W2953257881 @default.
• W3158361078 cites W2971396983 @default.
• W3158361078 cites W2981184286 @default.
• W3158361078 cites W2991516081 @default.
• W3158361078 cites W3000284128 @default.
• W3158361078 cites W3000835486 @default.
• W3158361078 cites W3005369437 @default.
• W3158361078 cites W3008655159 @default.
• W3158361078 cites W3013010865 @default.
• W3158361078 cites W3013132876 @default.
• W3158361078 cites W3033489502 @default.
• W3158361078 cites W3087884072 @default.
• W3158361078 cites W3109391413 @default.
• W3158361078 cites W4205599783 @default.
• W3158361078 cites W4210725917 @default.
• W3158361078 cites W4238843711 @default.
• W3158361078 doi "https://doi.org/10.1002/prep.202000318" @default.
• W3158361078 hasPublicationYear "2021" @default.
• W3158361078 type Work @default.

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