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Abstract
‘Click reactions’ are the copper catalysed dipolar cycloaddition reaction of azides and alkynes to incorporate nitrogens into a cyclic hydrocarbon scaffold forming a triazole ring. Owing to its efficiency and versatility, this reaction and the products, triazole-containing heterocycles, have immense importance in medicinal chemistry. Copper is the only known catalyst to carry out this reaction, the mechanism of which remains unclear. We report here that the ‘click reactions’ can also be catalysed by silver halides in non-aqueous medium. It constitutes an alternative to the well-known CuAAC click reaction. The yield of the reaction varies on the type of counter ion present in the silver salt. This reaction exhibits significant features, such as high regioselectivity, mild reaction conditions, easy availability of substrates and reasonably good yields. In this communication, the findings of a new catalyst along with the effect of solvent and counter ions will help to decipher the still obscure mechanism of this important reaction.
Highlights
Reactions to produce small building blocks from selective components are synthetically highly demanding [1,2,3]
We have demonstrated the catalytic activity of silver (I) in the Huisgen cycloaddition reaction of azides and alkynes and a general computational investigation has been carried out to study the mechanisms of the silver-catalysed triazole formation reaction
We reported our findings on the synthesis of various silver-catalysed various triazole rings both in intermolecular and intramolecular fashion
Summary
Reactions to produce small building blocks from selective components are synthetically highly demanding [1,2,3]. Trace (I)-catalysed Huisgen dipolar cycloaddition reaction of terminal alkynes with azides yields 1,4 and 1,5 triazoles [4,5] It is the most convenient method for the synthesis of triazoles, which are widely used in chemistry, biology and materials science [6,7,8,9]. We have demonstrated the catalytic activity of silver (I) in the Huisgen cycloaddition reaction of azides and alkynes and a general computational investigation has been carried out to study the mechanisms of the silver-catalysed triazole formation reaction. It is noteworthy to mention here that the catalytic activity of Ag(I) species is remarkably controlled by its conjugate anion This may be the reason for the better chemical yield over Cu(I) salt-catalysed reactions. We have explored the mechanism of this important transformation using quantum mechanical computations
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