On the size evolution of monolayer-protected gold clusters during ligand place-exchange reactions: the effect of solvents

Chun-Ting Kuo; Chiu-Feng Chen; Meng-Wen Gu; Man-Nung Su; Jhih-Fong Huang; Min-Jie Huang; Chun-Hsien Chen

doi:10.1002/asia.201301182

On the size evolution of monolayer-protected gold clusters during ligand place-exchange reactions: the effect of solvents

Chem Asian J. 2014 Mar;9(3):844-51. doi: 10.1002/asia.201301182. Epub 2013 Dec 17.

Authors

Chun-Ting Kuo¹, Chiu-Feng Chen, Meng-Wen Gu, Man-Nung Su, Jhih-Fong Huang, Min-Jie Huang, Chun-Hsien Chen

Affiliation

¹ Department of Chemistry and Center for Emerging Material and Advanced Devices, National Taiwan University, Taipei, 10617 (Taiwan), Fax: (+886) 3366-8670.

PMID: 24347109
DOI: 10.1002/asia.201301182

Abstract

Ligand place-exchange (LPE) reactions are extensively applied for the post-functionalization of monolayer-protected gold clusters (MPCs) by using excessive incoming ligands to displace initial ones. However, the modified MPCs are often enlarged or degraded; this results in ill-defined size-dependent properties. The growth of MPCs essentially involves an unprotected surface that is subsequently has gold atoms added or is fused with other gold cores owing to collision. Reported herein is a guideline for the selection of solvents to suppress unwanted MPC growth. Favorable solvents are those with significant affinity to gold or with low solubility for desorbed ligands because these properties retard LPE reactions and minimize the time available for unprotected gold cores. This finding provides a general and convenient approach to regulate the size of functionalized MPCs.

Keywords: density functional calculations; gold; ligand effects; nanoparticles; solvent effects.