SUBWAVELENGTH DIRECT LASER PATTERNING OF CONDUCTIVE GOLD NANOSTRUCTURES BY SIMULTANEOUS PHOTOPOLYMERIZATION AND PHOTOREDUCTION
Shobha Shukla, Xavier Vidal, Edward Furlani, Mark Swihart, Kyoung-Tae Kim, Yong-Kyu Yoon, Augustine Urbas and Paras Prasad
This article presents a new method for fabricating highly conductive gold nanostructures within a polymeric matrix with subwavelength resolution. The nanostructures are directly written in a gold precursor-doped photoresist using a femtosecond pulsed laser. The laser energy is absorbed by a two-photon dye, which induces simultaneous reduction of gold in the precursor and polymerization of the negative photoresist. This results in gold nanoparticle-doped polymeric lines that exhibit both plasmonic effects, due to the constituent gold nanoparticles, and relatively high conductivity (within an order of magnitude of the bulk metal), due to the high density of particles within these lines. Line widths from 150 to 1000 nm have been achieved with this method. Various optically functional structures have been prepared, and their structural and optical properties have been characterized. The influence of laser intensity and scan speed on feature size have been studied and found to be in agreement with predictions of a mathematical model of the process.
Keywords: nanocomposites, two-photon lithography, metamaterials, gold nanostructures and nanofabrication