Patterning of periodic nano-cavities on PEDOT–PSS using nanosphere-assisted near-field optical enhancement and laser interference lithography

Author: Yuan Dajun   Lasagni Andrés   Hendricks Jeffrey L   Martin David C   Das Suman  

Publisher: IOP Publishing

ISSN: 0957-4484

Source: Nanotechnology, Vol.23, Iss.1, 2012-01, pp. : 15304-15310

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Abstract

A simple approach for creating periodic nano-cavities and periodic stripes of nano-cavity arrays on poly (3,4-ethylene dioxythiophene)–poly(styrenesulfonate) (PEDOT–PSS) thin films using a combination of optical near-field enhancement through self-assembled silica nanospheres and laser interference lithography is presented. Monolayers of close-packed silica nanospheres (800, 600, and 430 nm in diameter) are self-assembled on 2 µm thick PEDOT–PSS electropolymerized films and are subsequently irradiated with 10 ns pulses of 355 nm wavelength laser light. Over areas spanning 2 cm2, circular nano-cavities with central holes of size 50–200 nm and surrounding craters of size 100–400 nm are formed in the PEDOT–PSS films directly underneath the nanospheres due to strong enhancement (11–18 fold) of the incident light in the near-field, which is confirmed through Mie scattering theory. Predictions from theoretical simulations examining the combined effects of near-field enhancement and interference are in good agreement with the experimental results. The results illustrate the versatility of the described technique for creating nano-cavity arrays or nano-pores in PEDOT–PSS over large areas with designed periodicity and hole size.