TY - JOUR
T1 - Surfactant-free coating of thiols on gold nanoparticles using sonochemistry: A study of competing processes
AU - Pallipurath, Anuradha
AU - Nicoletti, Olivia
AU - Skelton, Jonathan M.
AU - Mahajan, Sumeet
AU - Midgley, Paul A.
AU - Elliott, Stephen R.
PY - 2014/3/27
Y1 - 2014/3/27
N2 - A method for the surfactant-free coating of gold nanoparticles with thiols using sonochemistry is presented. The gold nanoparticles were prepared by a modified Zsigmondy method, affording good control over the particle-size distribution, and the thiol coating was performed by the sonication of a biphasic system consisting of a nanoparticle suspension in water and thiols in toluene. The effects of two important reaction parameters on the particle morphology, viz. sonication time and thiol concentration, were investigated in detail using transmission electron microscopy. The effect of the thiol chain length was also studied. We show that the morphology of the coated particles is determined through a competition between two opposing effects: particle fusion, due to the sonication conditions, and digestive ripening, due to the action of the thiols. Additionally, we illustrate the utility of our technique for various applications, including surface-enhanced Raman scattering from bound molecules, and further functionalization using a thiol-exchange reaction. Our technique paves the way for an efficient synthesis of thiol-coated AuNPs of different shapes and sizes, suitable for a range of diverse applications.
AB - A method for the surfactant-free coating of gold nanoparticles with thiols using sonochemistry is presented. The gold nanoparticles were prepared by a modified Zsigmondy method, affording good control over the particle-size distribution, and the thiol coating was performed by the sonication of a biphasic system consisting of a nanoparticle suspension in water and thiols in toluene. The effects of two important reaction parameters on the particle morphology, viz. sonication time and thiol concentration, were investigated in detail using transmission electron microscopy. The effect of the thiol chain length was also studied. We show that the morphology of the coated particles is determined through a competition between two opposing effects: particle fusion, due to the sonication conditions, and digestive ripening, due to the action of the thiols. Additionally, we illustrate the utility of our technique for various applications, including surface-enhanced Raman scattering from bound molecules, and further functionalization using a thiol-exchange reaction. Our technique paves the way for an efficient synthesis of thiol-coated AuNPs of different shapes and sizes, suitable for a range of diverse applications.
KW - Digestive ripening
KW - Gold nanoparticles
KW - Sonochemistry
KW - Surface-enhanced Raman scattering
KW - Thiol coating
UR - http://www.scopus.com/inward/record.url?scp=84901312960&partnerID=8YFLogxK
U2 - 10.1016/j.ultsonch.2014.03.014
DO - 10.1016/j.ultsonch.2014.03.014
M3 - Article
C2 - 24704067
AN - SCOPUS:84901312960
SN - 1350-4177
VL - 21
SP - 1886
EP - 1892
JO - Ultrasonics Sonochemistry
JF - Ultrasonics Sonochemistry
IS - 5
ER -