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A Synthetic Strategy for the Preparation of Fused [5,6,5,5]-Tetracyclic Energetic Compounds
Organic Letters ( IF 4.9 ) Pub Date : 2023-04-03 , DOI: 10.1021/acs.orglett.3c00630 Caijin Lei 1 , Jie Tang 1 , Qinghua Zhang 2 , Hongwei Yang 1 , Guangbin Cheng 1
Organic Letters ( IF 4.9 ) Pub Date : 2023-04-03 , DOI: 10.1021/acs.orglett.3c00630 Caijin Lei 1 , Jie Tang 1 , Qinghua Zhang 2 , Hongwei Yang 1 , Guangbin Cheng 1
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This study explores a straightforward synthetic strategy for preparing fused [5,6,5,5]-tetracyclic energetic compounds. Compound 4 has a high thermostability (Td = 307 °C), which is comparable to that of traditional heat-resistant explosive HNS (Td = 318 °C), but a higher detonation velocity (8262 m s–1) than HNS (7612 m s–1). These results indicate that compound 4 deserves further investigation as a potential heat-resistant explosive.
中文翻译:
一种制备稠合 [5,6,5,5]-四环含能化合物的合成策略
本研究探索了一种制备稠合 [5,6,5,5]-四环高能化合物的直接合成策略。化合物4具有较高的热稳定性(T d = 307 °C),与传统耐热炸药HNS( T d = 318 °C)相当,但爆速(8262 ms –1)高于HNS( 7612 毫秒–1)。这些结果表明化合物4作为潜在的耐热炸药值得进一步研究。
更新日期:2023-04-03
中文翻译:
一种制备稠合 [5,6,5,5]-四环含能化合物的合成策略
本研究探索了一种制备稠合 [5,6,5,5]-四环高能化合物的直接合成策略。化合物4具有较高的热稳定性(T d = 307 °C),与传统耐热炸药HNS( T d = 318 °C)相当,但爆速(8262 ms –1)高于HNS( 7612 毫秒–1)。这些结果表明化合物4作为潜在的耐热炸药值得进一步研究。
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