Synthesis and Study of Steering of Azido-tetrazole Behavior in Tetrazolo[1,5- c ]pyrimidin-5-amine-Based Energetic Materials.
Saira ManzoorMuhammad Adnan YounisQamar-Un-Nisa TariqJun-Qing YangNaushad AhmadChuntian QiuBingbing TianJian-Guo ZhangPublished in: The Journal of organic chemistry (2024)
Tetrazoles and their derivatives are essential for compound synthesis due to their versatility, effectiveness, stability in air, and cost-efficiency. This has stimulated interest in developing techniques for their production. In this work, four compounds, tetrazolo[1,5- c ]pyrimidin-5-amine ( 1 ), N-(4-azidopyrimidin-2-yl)nitramide ( 2 ), tetrazolo[1,5- c ]pyrimidin-5(6H)-one ( 3 ), and tetrazolo[1,5- a ]pyrimidin-5-amine ( 4 ), were obtained from commercially available reagents and straightforward synthetic methodologies. These new compounds were characterized by infrared (IR), 13 C, and 1 H NMR spectroscopy, differential scanning calorimetry (DSC), and single-crystal X-ray diffraction. The solvent, temperature, and electron-donating group (EDG) factors that were responsible for the steering of azido-tetrazole equilibrium in all compounds were also studied. In addition, the detonation performance of the target compounds was calculated by using heats of formation (HOFs) and crystal densities. Hirshfeld surface analysis was used to examine the intermolecular interactions of the four synthesized compounds. The results show that the excellent properties of 1 - 4 are triggered by ionic bonds, hydrogen bonds, and π-π stacking interactions, indicating that these compounds have the potential to be used in the development of high-performance energetic materials. Additionally, DFT analysis is in support of experimental results, which proved the effect of different factors that can influence the azido-tetrazole equilibrium in the synthesized pyrimidine derivatives in the solution.