A. Menéndez-Manjón
A. Schwenke
T. Steinke
M. Meyer
U. Giese
P. Wagener
S. Barcikowski

Ligand-free gold-silver nanoparticle alloy polymer composites generated by picosecond laser ablation in liquid monomer

Applied Physics A - Materials Science & Processing
2
110
343-350
2012
Type: Zeitschriftenaufsatz (reviewed)
Abstract
Polymer matrix nanocomposites filled with metallic and alloy nanoparticles add functionality in various applications such as optical devices and in the energy sector. However, matrix coupling agents or nanoparticle ligands may be unwanted additives, potentially inhibiting the resulting nanocomposite to be processed by injection molding. The generation of stabilizer-free Au, Ag, and AuAg alloy nanoparticle acrylate composites is achieved by picosecondpulsed laser ablation of the respective metal target in the liquid monomer. Complementary to laser ablation of the solid alloy, we have alloyed nanoparticles by post-irradiation of Au and Ag colloids in the liquid monomer. The optical properties of the colloidal nanoparticles are successfully transferred to the solid poly(methyl methacrylate) matrix and characterized by their plasmon resonance that can be easily tuned between 400 and 600 nm by laser alloying in the liquid monomer.