自燃引发剂作为共晶形成剂：通过共结晶制备具有可调能量含量的新型自燃材料。

Hypergolic Triggers as Co-crystal Formers: Co-crystallization for Creating New Hypergolic Materials with Tunable Energy Content.

作者信息

Titi Hatem M, Arhangelskis Mihails, Rachiero Giovanni P, Friščić Tomislav, Rogers Robin D

机构信息

Department of Chemistry, McGill University, 801 Sherbrooke St. West, Montreal, QC, H3A0B8, Canada.

College of Arts & Sciences, The University of Alabama, Tuscaloosa, AL, 35487, USA.

出版信息

Angew Chem Int Ed Engl. 2019 Dec 16;58(51):18399-18404. doi: 10.1002/anie.201908690. Epub 2019 Nov 6.

DOI:10.1002/anie.201908690

PMID:31609511

Abstract

We demonstrate a co-crystal-based strategy to create new solid hypergols, that is, materials exhibiting spontaneous ignition when in contact with an oxidant, from typically non-hypergolic fuel molecules. In these materials, the energy content and density can be changed without affecting the ignition delay. The use of an imidazole-substituted decaborane as a hypergolic "trigger" component in combination with energy-rich but non-hypergolic nitrobenzene or pyrazine yielded hypergolic co-crystals that combine improved combustion properties with ultrashort ignition delays as low as 1 ms.

摘要

我们展示了一种基于共晶的策略，可从典型的非自燃燃料分子中创造出新的固体自燃推进剂，即与氧化剂接触时能自燃的材料。在这些材料中，能量含量和密度可以改变，而不会影响点火延迟。使用咪唑取代的癸硼烷作为自燃“触发”组分，与富含能量但不自燃的硝基苯或吡嗪相结合，产生了自燃共晶，其结合了改进的燃烧性能和低至1毫秒的超短点火延迟。

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自燃引发剂作为共晶形成剂：通过共结晶制备具有可调能量含量的新型自燃材料。

Hypergolic Triggers as Co-crystal Formers: Co-crystallization for Creating New Hypergolic Materials with Tunable Energy Content.

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