10.1002/smll.202002238 ">
 

Sequential growth as a mechanism of silver‐glutathione monolayer‐protected cluster formation

Yeakub Zaker, The University of Toledo
Brian A. Ashenfelter, The University of Toledo
Badri Bhattarai, The University of Toledo
Nathan A. Diemler, The University of Toledo
Timothy R. Brewer, Eastern Michigan University
Terry P. Bigioni, The University of Toledo

Abstract

© 2020 Wiley-VCH GmbH Silver monolayer-protected clusters (MPCs) are an important new class of small metal nanoparticles with discrete sizes and unique properties that are eminently tunable; however, a fundamental understanding of the mechanisms of MPC formation is still lacking. Here, the basic mechanism by which silver-glutathione MPCs form is established by using real-time in situ optical measurements and ex situ solution-phase analyses to track MPC populations in the reaction mixture. These measurements identify that MPCs grow systematically, increasing in size sequentially as they transform from one known species to another, in contrast to existing models. In the new sequential growth model of MPC formation, the relative stability of each species in the series results in thermodynamic preferences for certain species as well as kinetic barriers to transformations between stable sizes. This model is shown to correctly predict the outcome of silver MPC synthetic reactions. Simple analytic expressions and simulations of rate equations are used to further validate the model and study its nature. The sequential growth model provides insights into how reactions may be directed, based on the interplay between relative MPC stabilities and reaction kinetics, providing tools for the synthesis of particular MPCs in high yield.