This review highlights the rapid progress in 3D and 4D printing of electrically conductive polymers and critically outlines key challenges, such as printability and scalability, that must be overcome for broad industrial and biomedical applications.
A series of energetic coordination polymers has been synthesized by incorporating dinitromethyltetrazole with alkali metals (Na, K, Rb and Cs), which have potential applications in laser initiating high explosives.
Dicyanamide anions are introduced into nitrogen-rich skeletons to construct multipurpose ECPs with high energy, low sensitivities, and hypergolic properties.
Black-to-transmissive electrochromic (EC) materials, possessing superior electrochromic properties, still face limitations in smart windows, military camouflage, etc., due to their narrow spectrum modulation (below 800 nm).
In this paper, we aim to summarize the existing energetic tetrazole N-oxide coordination polymers briefly and discuss the advantages of synthesizing these polymers and examine their future development prospects.