Solvent-Free Lithium/Sodium-Based Metal-Organic Frameworks with Versatile Nitrogen-Rich Ligands: Insight for the Design of Promising Superheat-Resistant Explosives

Energetic metal-organic frameworks (EMOFs) are very promising as heat-resistant explosives, affording both thermal stability and energy properties. In this work, the self-assembly of high-energy nitrogen-rich linkers with nontoxic alkali-metal lithium/sodium leads to four new solvent-free EMOFs. Because of unparalleled decomposition temperature (T-dec = 403 degrees C) and heats of detonation (3.475 kcal.g(-1)), a 3D Li(I)-EMOF can be considered to be a superheat-resistant explosive candidate.

Automated summary

The self-assembly of high-energy nitrogen-rich linkers with nontoxic alkali-metal lithium/sodium results in four new solvent-free EMOFs with unparalleled decomposition temperature and heats of detonation, making the 3D Li(I)-EMOF a superheat-resistant explosive candidate.