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The Adjustability of Physicochemical Properties: Comparison of 1-Vinyl-5 H -tetrazole and 1-Allyl-5 H -tetrazole as Ligands in 3d Metal Energetic Coordination Compounds .

Markus RöschMichael S GruhneMarcus LommelSimon M J EndraßJörg Stierstorfer
Published in: Inorganic chemistry (2023)
Energetic coordination compounds (ECCs) show promising properties to be used as potential substitutes for highly toxic lead-containing primary explosives. The concept is to combine the three building blocks: (i) ligand, (ii) transition metal, and (iii) anion, acting as (i) fuel, (ii) matrix, and (iii) oxidizer (e.g., ClO 4 - , NO 3 - , ClO 3 - ) or energetic component (e.g., DN - , N 3 - , picrate, styphnate, trinitrophloroglucinate). By variation of the ligands, the complexes' properties can be adjusted toward their desired performance and sensitivities. In the present study, 1-vinyl-5 H -tetrazole (1-VTZ, 1 ) and 1-allyl-5 H -tetrazole (1-ATZ, 2 ) were used as nitrogen-rich endothermic ligands to form 3d metal (Mn 2+ , Fe 2+ , Cu 2+ , Zn 2+ , Co 2+ , Ni 2+ )-based ECCs. The influence of the introduction of an unsaturated C-C bond (1-ETZ vs 1-VTZ and 1-PTZ vs 1-ATZ) on the performance and sensitivity of the complexes is discussed, as is the lengthening of the alkenyl chain (1-VTZ vs 1-ATZ). For further insights, the novel complexes were compared to literature-known complexes based on N 1-substituted C2- and C3-derived tetrazole ligands, respectively. The ligand 1-VTZ ( 1 ) was prepared by elimination of hydrogen chloride from 1-(2-chloroethyl)-5 H -tetrazole in methanolic KOH solution. 1-ATZ ( 2 ) was obtained by a heterocyclization reaction of allylamine with triethyl orthoformate and sodium azide in an acetic acid medium. All compounds were intensively characterized with analytical methods such as XRD, IR, EA, DTA, TGA, and sensitivity measurements (IS and FS). The energetic performances were visibly evaluated in fast heating experiments. Furthermore, PETN initiation and laser ignition experiments were carried out for promising ECCs.
Keyphrases
  • transition metal
  • metal organic framework
  • systematic review
  • heavy metals
  • room temperature
  • risk assessment