Research on Integrated Parallel Reactions for the High Throughput Preparation Energetic Materials

Abstract

Abstract The high-throughput automatic sample addition platform technology was applied to the large-scale sample addition, pretreatment, and high-throughput synthesis of simple compounds in many fields. With the introduction of material genome technology into the field of high energy energetic materials (HEDMs), the energetic materials genome (EMG) project is implemented. Completing different reaction types at the same time has become key to high-throughput synthesis of energetic materials. In this study, three common synthetic methods (nitration, oxidation and ion exchange reactions) were selected and successfully integrated on the high-throughput automatic sample addition platform. The parallel reactions could be used for preparing energetic materials. The method is viable for high-throughput synthesis of HEDMs. The method improves the efficiency, safety, labor costs compared to conventional methods, which is of great significance for accelerating the synthesis of HEDMs.