Litcius/Paper detail

Advanced fractal analysis of nanoscale topography of Ag/DLC composite synthesized by RF-PECVD

Ştefan Ţălu, Senour Abdolghaderi, Erveton P. Pinto, Robert S. Matos, Marco Salerno

2020Surface Engineering77 citationsDOI

Abstract

We present an advanced image analysis study of the 3D surfaces of silver/diamond-like carbon nanocomposite films prepared by radio-frequency plasma-enhanced chemical vapour deposition. Atomic force microscopy data were analysed, with the goal to provide image analysis tools allowing for a better understanding of the structure–property correlation, with specific case for the present material. While the samples' fractal dimension decreased and the roughness increased with increasing deposition time, fractal succolarity showed no significant difference and relatively high values, describing high percolation, and fractal lacunarity decreased, in agreement with topographic entropy, which revealed uniformity in height distribution. In conclusion, the samples' microtexture shows a nearly uniform surface with a homogenous distribution of nanoparticles, due to the fabrication process and the emerging fractal nature of the nanocomposite, at all the considered deposition times. Fractal lacunarity and succolarity, currently not provided by commercial image analysis programmes, can be useful in advanced surface image characterization.

Topics & Concepts

LacunarityMaterials scienceFractal dimensionFractalFractal analysisComposite materialSurface roughnessNanocompositePlasma-enhanced chemical vapor depositionSurface finishNanoscopic scaleCharacterization (materials science)NanotechnologyChemical vapor depositionMathematicsMathematical analysisSurface Roughness and Optical MeasurementsAdhesion, Friction, and Surface InteractionsLaser-induced spectroscopy and plasma