%0 Journal Article %A Kashmery, H. A. %A Clark, A. W. %A Dondi, R. %A Fallows, A. J. %A Cullis, Paul M. %A Burley, G. A. %D 2016 %T Defining the Structural Parameters of Triazole Ligands in the Templated Synthesis of Silver Nanoparticles %U https://figshare.le.ac.uk/articles/journal_contribution/Defining_the_Structural_Parameters_of_Triazole_Ligands_in_the_Templated_Synthesis_of_Silver_Nanoparticles/10178822 %2 https://figshare.le.ac.uk/ndownloader/files/18344294 %K Science & Technology %K Physical Sciences %K Chemistry, Inorganic & Nuclear %K Chemistry %K Template synthesis %K Nanoparticles %K Silver %K Click chemistry %K Nitrogen heterocycles %K ANTIBACTERIAL ACTIVITY %K CLICK-CHEMISTRY %K TOLLENS PROCESS %K NPS %K STABILITY %K EFFICIENT %K ALKYNES %K AZIDES %K SIZES %K DNA %X This manuscript describes a one-pot method for the synthesis of size- and shape-selected silver nanoparticles (AgNPs) using Tollens' reagent [Ag(NH3)2OH] as the silver source. Sugar triazole ligands facilitate the formation of monodisperse AgNPs in which the size and shape can be controlled according to the reaction conditions. Increasing the size of the ligand reduces size tunability but enhances colloidal stability in high-salt buffers. A key conclusion from this study is that the AgI-binding affinity of these triazole ligands determines their capacity to tune the size of the resultant AgNPs formed. Weaker AgI-binding ligands can be used to form monodisperse, angular AgNPs over a wider range of sizes [(12 ± 3) to (33 ± 7) nm], whereas triazole ligands that exhibit a higher AgI-binding affinity produce monodisperse, spherical AgNPs of a single size [(18 ± 5) nm]. %I University of Leicester