Modern trends in “Green” primary energetic materials
The evergrowing demand for cleaner, high-performing energetic materials (EMs) has led to
a quest for replacement of currently used toxic metal-based traditional energetic compounds …
a quest for replacement of currently used toxic metal-based traditional energetic compounds …
Synthesis, design and development of energetic materials: Quo Vadis?
Energetic materials are important class of functional compounds that combine the beauty of
extreme high-energy chemistry with rigorous constraints on safety and performance. As a …
extreme high-energy chemistry with rigorous constraints on safety and performance. As a …
2,2′-Azobis(1,5′-bitetrazole) with a N10 Chain and 1,5′-Bitetrazolate-2N-oxides: Construction of Highly Energetic Nitrogen-Rich Materials Based on C–N-Linked …
Z Xu, T Hou, F Yang, L Zhang, X Zhang… - … Applied Materials & …, 2023 - ACS Publications
A series of high-nitrogen compounds, including a unique molecule 2, 2′-azobis (1, 5′-
bitetrazole) with a branched N10 chain and 1, 5′-bitetrazolate-2 N-oxides, were …
bitetrazole) with a branched N10 chain and 1, 5′-bitetrazolate-2 N-oxides, were …
Polynitro-functionalized azopyrazole with high performance and low sensitivity as novel energetic materials
G Zhang, Z Yi, G Cheng, W Yang… - ACS Applied Materials & …, 2022 - ACS Publications
The development of energetic materials is still facing a huge challenge because the
relationship between energy and sensitivity is usually contradictory: high energy is always …
relationship between energy and sensitivity is usually contradictory: high energy is always …
Photochemical strategies enable the synthesis of tunable azetidine-based energetic materials
KA Rykaczewski, MR Becker, MJ Anantpur… - Journal of the …, 2022 - ACS Publications
Despite their favorable properties, azetidines are often overlooked as lead compounds
across multiple industries. This is often attributed to the challenging synthesis of densely …
across multiple industries. This is often attributed to the challenging synthesis of densely …
Design and Synthesis of Nitrogen‐Rich Azo‐Bridged Furoxanylazoles as High‐Performance Energetic Materials
AA Larin, AV Shaferov, AS Kulikov… - … A European Journal, 2021 - Wiley Online Library
A series of novel energetic materials comprising of azo‐bridged furoxanylazoles enriched
with energetic functionalities was designed and synthesized. These high‐energy materials …
with energetic functionalities was designed and synthesized. These high‐energy materials …
Positional isomerism for strengthening intermolecular interactions: Toward monocyclic nitramino oxadiazoles with enhanced densities and energies
Q Sun, N Ding, C Zhao, J Ji, S Li, S Pang - Chemical Engineering Journal, 2022 - Elsevier
Abstract Development of high-density energetic materials has drawn considerable attention
because the densities significantly affect their detonation performance. Herein, we propose …
because the densities significantly affect their detonation performance. Herein, we propose …
A strategy for stabilizing of N8 type energetic materials by introducing 4-nitro-1, 2, 3-triazole scaffolds
S Feng, Y Li, Q Lai, J Cai, Z Wang, P Yin, C He… - Chemical Engineering …, 2022 - Elsevier
A series of multi-functionalized 4-nitro-1, 2, 3-triazole based C–N linked biheterocyclic
energetic compounds were synthesized using CDI (1, 1′-carbonyldiimidazole) induced …
energetic compounds were synthesized using CDI (1, 1′-carbonyldiimidazole) induced …
Iodine-mediated furoxan formation facilitates the synthesis of high-density tricyclic fused energetic materials
L Yang, ZQ Zhang, W Yang, Q Ma, W Li… - Crystal Growth & …, 2022 - ACS Publications
Fused cyclic energetic material, a special category of π-conjugate structures containing two
or more rings, has been acknowledged as a potential energy source of high energy density …
or more rings, has been acknowledged as a potential energy source of high energy density …
Azo Pyrazole Carboxylic Derivatives for Potential Energetic Materials
H Fan, J Tang, H Yang, G Cheng - Crystal Growth & Design, 2024 - ACS Publications
Ideal energetic materials require high densities, favorable thermal stability, high-energetic
characteristics, low sensitivity to impact and friction, and safe environmental compatibility …
characteristics, low sensitivity to impact and friction, and safe environmental compatibility …