Au nanostructure fabrication by pulsed laser deposition in open air: Influence of the deposition geometry.

Rumen G Nikov,Nikolay N Nedyalkov,Anna Og Dikovska,Georgi V Avdeev,Petar A Atanasov

doi:10.3762/bjnano.8.242

Abstract

We present a fast and flexible method for the fabrication of Au nanocolumns. Au nanostructures were produced by pulsed laser deposition in air at atmospheric pressure. No impurities or Au compounds were detected in the resulting samples. The nanoparticles and nanoaggregates produced in the ablated plasma at atmospheric pressure led to the formation of chain-like nanostructures on the substrate. The dependence of the surface morphology of the samples on the deposition geometry used in the experimental set up was studied. Nanocolumns of different size and density were produced by varying the angle between the plasma plume and the substrate. The electrical, optical, and hydrophobic properties of the samples were studied and discussed in relation to their morphology. All of the nanostructures were conductive, with conductivity increasing with the accumulation of ablated material on the substrate. The modification of the electrical properties of the nanostructures was demonstrated by irradiation by infrared light. The Au nanostructures fabricated by the proposed technology are difficult to prepare by other methods, which makes the simple implementation and realization in ambient conditions presented in this work more ideal for industrial applications.

Highlights

The growing interest in nanomaterials is related to their unique and fascinating properties [1,2], which are not observed in their bulk counterparts
The present paper demonstrates a fast and flexible method for the fabrication of pure Au nanostructures
The structures were produced by applying the pulsed laser deposition (PLD) technique in open air, that is, in the absence of vacuum, typically required for such fabrication techniques

Summary

Introduction

The growing interest in nanomaterials is related to their unique and fascinating properties [1,2], which are not observed in their bulk counterparts. Despite the recent significant progress in the field, the influence of the deposition geometry of PLD in open air on the surface morphology of the structures produced has yet to be thoroughly studied. The influence of the PLD deposition geometry on the surface morphology and physical properties of the samples was studied.

Results

Conclusion