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Journal Article

Citation

Blair LH, Colakel A, Vrcelj RM, Sinclair I, Coles SJ. Chem Commun (Camb) 2015; 51(61): 12185-12188.

Affiliation

Chemistry, University of Southampton, Highfield, Southampton, SO17 1BJ, UK. s.j.coles@soton.ac.uk.

Copyright

(Copyright © 2015, Royal Society of Chemistry)

DOI

10.1039/c5cc04174k

PMID

26138789

Abstract

A new approach to formulating pyrotechnic materials is presented whereby constituent ingredients are bound together in a solid-state lattice. This reduces the batch inconsistencies arising from the traditional approach of combining powders by ensuring the key ingredients are 'mixed' in appropriate quantities and are in intimate contact. Further benefits of these types of material are increased safety levels as well as simpler logistics, storage and manufacture. A systematic series of new frameworks comprising fuel and oxidiser agents (group 1 and 2 metal nodes & terephthalic acid derivatives as linkers) has been synthesised and structurally characterised. These new materials have been assessed for pyrotechnic effect by calorimetry and burn tests.

RESULTS indicate that these materials exhibit the desired pyrotechnic material properties and the effect can be correlated to the dimensionality of the structure. A new approach to formulating pyrotechnic materials is proposed whereby constituent ingredients are bound together in a solid-state lattice. A series of Metal-organic framework frameworks comprising fuel and oxidiser agents exhibits the desired properties of a pyrotechnic material and this effect is correlated to the dimensionality of the structure.


Language: en

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