Structural, dielectric and ferromagnetic properties of nano-crystalline Co-doped SnS

Doping-induced tuning of host semiconductors properties offers an efficient way to realize the desired physical properties. In this study, we have synthesized pure and Co-doped SnS-diluted magnetic semiconductors with x Co = 0.00–0.10, by employing a very simple and low-cost chemical co-precipitati...

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Veröffentlicht in:	Journal of materials science 2017-06, Vol.52 (12), p.7369-7381
Hauptverfasser:	Parveen, B., Hassan, M., Atiq, S., Riaz, S., Naseem, S., Zaman, Sher
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Characterization and Evaluation of Materials Chemical precipitation Chemicals Chemistry and Materials Science Classical Mechanics Crystallites Crystallography and Scattering Methods Data storage Dielectric materials Dielectric properties Doping Electrical conductivity Electromagnetic radiation Electronic devices Ferromagnetism Fine structure Frequency ranges Information storage and retrieval Magnetic properties Magnetic semiconductors Materials Science Morphology Organic chemistry Original Paper Oxidation Physical properties Polymer Sciences Precipitation (Meteorology) Scanning electron microscopy Semiconductors Semiconductors (Materials) Solid Mechanics Spectrum analysis Surface chemistry Tuning Valence X ray absorption X-ray diffraction
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creator	Parveen, B. Hassan, M. Atiq, S. Riaz, S. Naseem, S. Zaman, Sher
description	Doping-induced tuning of host semiconductors properties offers an efficient way to realize the desired physical properties. In this study, we have synthesized pure and Co-doped SnS-diluted magnetic semiconductors with x Co = 0.00–0.10, by employing a very simple and low-cost chemical co-precipitation technique. The structural properties, determined through X-ray diffraction, have confirmed single-phase orthorhombic structure and have depicted nano-crystallites. Near-edge X-ray absorption fine structure spectroscopy has revealed a Co-doping-induced shift in the absorption edge towards lower energy, indicating a change in the Co oxidation state. Surface morphology observed through scanning electron microscopy indicates nano-structured surface. Dielectric properties measured by impedance analyzer (LCR meter) in the frequency range 1 kHz–20 MHz depict that grown materials respond to the electromagnetic radiations suggesting potential device applications. Complex impedance spectroscopy illustrates the dominance of grain resistance. The magnetic properties observed by vibrating sample magnetometer reveal room temperature ferromagnetism, and Co ions inducing tuning of the ferromagnetism suggests potential applications in the data storage devices.
doi_str_mv	10.1007/s10853-017-0972-2
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In this study, we have synthesized pure and Co-doped SnS-diluted magnetic semiconductors with x Co = 0.00–0.10, by employing a very simple and low-cost chemical co-precipitation technique. The structural properties, determined through X-ray diffraction, have confirmed single-phase orthorhombic structure and have depicted nano-crystallites. Near-edge X-ray absorption fine structure spectroscopy has revealed a Co-doping-induced shift in the absorption edge towards lower energy, indicating a change in the Co oxidation state. Surface morphology observed through scanning electron microscopy indicates nano-structured surface. Dielectric properties measured by impedance analyzer (LCR meter) in the frequency range 1 kHz–20 MHz depict that grown materials respond to the electromagnetic radiations suggesting potential device applications. Complex impedance spectroscopy illustrates the dominance of grain resistance. 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subjects	Analysis Characterization and Evaluation of Materials Chemical precipitation Chemicals Chemistry and Materials Science Classical Mechanics Crystallites Crystallography and Scattering Methods Data storage Dielectric materials Dielectric properties Doping Electrical conductivity Electromagnetic radiation Electronic devices Ferromagnetism Fine structure Frequency ranges Information storage and retrieval Magnetic properties Magnetic semiconductors Materials Science Morphology Organic chemistry Original Paper Oxidation Physical properties Polymer Sciences Precipitation (Meteorology) Scanning electron microscopy Semiconductors Semiconductors (Materials) Solid Mechanics Spectrum analysis Surface chemistry Tuning Valence X ray absorption X-ray diffraction
title	Structural, dielectric and ferromagnetic properties of nano-crystalline Co-doped SnS
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