Topographic Characterization of Cu–Ni NPs @ a‑C:H Films by AFM and Multifractal Analysis

In the present work three-dimensional (3-D) surface topography of Cu–Ni nanoparticles in hydrogenated amorphous carbon (Cu–Ni NPs @ a-C:H) with constant thickness of Cu and three thicknesses of Ni prepared by RF-Plasma Enhanced Chemical Vapor Deposition (RF-PECVD) system were investigated. The thin...

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Published in	The journal of physical chemistry. B Vol. 119; no. 17; pp. 5662 - 5670
Main Authors	Ţălu, Ştefan, Stach, Sebastian, Ghodselahi, Tayebeh, Ghaderi, Atefeh, Solaymani, Shahram, Boochani, Arash, Garczyk, Żaneta
Format	Journal Article
Language	English
Published	United States American Chemical Society 30.04.2015
Subjects	absorption atomic force microscopy carbon copper geometry nanoparticles nickel radio waves spectroscopy surface plasmon resonance topography vapors wavelengths
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Abstract	In the present work three-dimensional (3-D) surface topography of Cu–Ni nanoparticles in hydrogenated amorphous carbon (Cu–Ni NPs @ a-C:H) with constant thickness of Cu and three thicknesses of Ni prepared by RF-Plasma Enhanced Chemical Vapor Deposition (RF-PECVD) system were investigated. The thin films of Cu–Ni NPs @ a-C:H with constant thickness of Cu and three thicknesses of Ni deposited by radio frequency (RF)-sputtering and RF-PECVD systems, were characterized. To determine the mass thickness and atomic structure of the films, the Rutherford backscattering spectroscopy (RBS) spectra was applied. The absorption spectra were applied to study localized surface plasmon resonance (LSPR) peaks of Cu–Ni NPs (observed around 608 nm in visible spectra), which is widened and shifted to lower wavelengths as the thickness of Ni over layer increases, and their changes are also evaluated by the 3-D surface topography. These nanostructures were investigated over square areas of 1 μm × 1 μm using atomic force microscopy (AFM) and multifractal analysis. Topographic characterization of surface samples (in amplitude, spatial distribution, and pattern of surface characteristics) highlighted 3-D surfaces with multifractal features which can be quantitatively estimated by the multifractal measures. The 3-D surface topography Cu–Ni NPs @ a-C:H with constant thickness of Cu and three thicknesses of Ni prepared by RF-PECVD system can be characterized using the multifractal geometry in correlation with the surface statistical parameters.
AbstractList	In the present work three-dimensional (3-D) surface topography of Cu–Ni nanoparticles in hydrogenated amorphous carbon (Cu–Ni NPs @ a-C:H) with constant thickness of Cu and three thicknesses of Ni prepared by RF-Plasma Enhanced Chemical Vapor Deposition (RF-PECVD) system were investigated. The thin films of Cu–Ni NPs @ a-C:H with constant thickness of Cu and three thicknesses of Ni deposited by radio frequency (RF)-sputtering and RF-PECVD systems, were characterized. To determine the mass thickness and atomic structure of the films, the Rutherford backscattering spectroscopy (RBS) spectra was applied. The absorption spectra were applied to study localized surface plasmon resonance (LSPR) peaks of Cu–Ni NPs (observed around 608 nm in visible spectra), which is widened and shifted to lower wavelengths as the thickness of Ni over layer increases, and their changes are also evaluated by the 3-D surface topography. These nanostructures were investigated over square areas of 1 μm × 1 μm using atomic force microscopy (AFM) and multifractal analysis. Topographic characterization of surface samples (in amplitude, spatial distribution, and pattern of surface characteristics) highlighted 3-D surfaces with multifractal features which can be quantitatively estimated by the multifractal measures. The 3-D surface topography Cu–Ni NPs @ a-C:H with constant thickness of Cu and three thicknesses of Ni prepared by RF-PECVD system can be characterized using the multifractal geometry in correlation with the surface statistical parameters.
Author	Ghodselahi, Tayebeh Ghaderi, Atefeh Stach, Sebastian Solaymani, Shahram Boochani, Arash Garczyk, Żaneta Ţălu, Ştefan
AuthorAffiliation	Technical University of Cluj-Napoca, Faculty of Mechanical Engineering, Department of AET Discipline of Descriptive Geometry and Engineering Graphics Department of Biomedical Computer Systems Islamic Azad University, Kermanshah Branch Physics Department Nano Mabna Iranian Inc Young Researchers and Elite Club University of Silesia, Faculty of Computer Science and Materials Science, Institute of Informatics Kermanshah Branch, Islamic Azad University
AuthorAffiliation_xml	– name: Technical University of Cluj-Napoca, Faculty of Mechanical Engineering, Department of AET – name: Islamic Azad University, Kermanshah Branch – name: Discipline of Descriptive Geometry and Engineering Graphics – name: Nano Mabna Iranian Inc – name: Kermanshah Branch, Islamic Azad University – name: Physics Department – name: Department of Biomedical Computer Systems – name: Young Researchers and Elite Club – name: University of Silesia, Faculty of Computer Science and Materials Science, Institute of Informatics
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Snippet	In the present work three-dimensional (3-D) surface topography of Cu–Ni nanoparticles in hydrogenated amorphous carbon (Cu–Ni NPs @ a-C:H) with constant... In the present work three-dimensional (3-D) surface topography of Cu-Ni nanoparticles in hydrogenated amorphous carbon (Cu-Ni NPs @ a-C:H) with constant...
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SubjectTerms	absorption atomic force microscopy carbon copper geometry nanoparticles nickel radio waves spectroscopy surface plasmon resonance topography vapors wavelengths
Title	Topographic Characterization of Cu–Ni NPs @ a‑C:H Films by AFM and Multifractal Analysis
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