Ethanol sensor based on nanocrystallite cadmium ferrite

The cadmium ferrite was synthesized by oxalate co-precipitation method. The crystal structure and surface morphology were examined by X-ray diffraction and SEM techniques, respectively. The nanocrystallite CdFe2O4 sensor was tested for LPG, Cl2 and C2H5OH. The sensitivity was measured at various ope...

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Hauptverfasser:	Gadkari, Ashok B., Shinde, Tukaram J., Vasambekar, Pramod N.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	CADMIUM CHLORINE COMPARATIVE EVALUATIONS CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY COPRECIPITATION CRYSTAL STRUCTURE ETHANOL FERRITES Liquefied petroleum gas MORPHOLOGY Operating temperature OXALATES Recovery time SCANNING ELECTRON MICROSCOPY Sensitivity SENSORS SURFACES X-RAY DIFFRACTION
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creator	Gadkari, Ashok B. Shinde, Tukaram J. Vasambekar, Pramod N.
description	The cadmium ferrite was synthesized by oxalate co-precipitation method. The crystal structure and surface morphology were examined by X-ray diffraction and SEM techniques, respectively. The nanocrystallite CdFe2O4 sensor was tested for LPG, Cl2 and C2H5OH. The sensitivity was measured at various operating temperatures in the range of 100-400°C. The sensor shows highest sensitivity and selectivity to C2H5OH at 350°C. The response and recovery time was measured at operating temperature of 350°C. The sensor exhibits a lower response and recovery time for LPG and Cl2 as compared to ethanol.
doi_str_mv	10.1063/1.4917642
format	Conference Proceeding
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The crystal structure and surface morphology were examined by X-ray diffraction and SEM techniques, respectively. The nanocrystallite CdFe2O4 sensor was tested for LPG, Cl2 and C2H5OH. The sensitivity was measured at various operating temperatures in the range of 100-400°C. The sensor shows highest sensitivity and selectivity to C2H5OH at 350°C. The response and recovery time was measured at operating temperature of 350°C. 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The crystal structure and surface morphology were examined by X-ray diffraction and SEM techniques, respectively. The nanocrystallite CdFe2O4 sensor was tested for LPG, Cl2 and C2H5OH. The sensitivity was measured at various operating temperatures in the range of 100-400°C. The sensor shows highest sensitivity and selectivity to C2H5OH at 350°C. The response and recovery time was measured at operating temperature of 350°C. 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The crystal structure and surface morphology were examined by X-ray diffraction and SEM techniques, respectively. The nanocrystallite CdFe2O4 sensor was tested for LPG, Cl2 and C2H5OH. The sensitivity was measured at various operating temperatures in the range of 100-400°C. The sensor shows highest sensitivity and selectivity to C2H5OH at 350°C. The response and recovery time was measured at operating temperature of 350°C. The sensor exhibits a lower response and recovery time for LPG and Cl2 as compared to ethanol.</abstract><cop>Melville</cop><pub>American Institute of Physics</pub><doi>10.1063/1.4917642</doi></addata></record>
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subjects	CADMIUM CHLORINE COMPARATIVE EVALUATIONS CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY COPRECIPITATION CRYSTAL STRUCTURE ETHANOL FERRITES Liquefied petroleum gas MORPHOLOGY Operating temperature OXALATES Recovery time SCANNING ELECTRON MICROSCOPY Sensitivity SENSORS SURFACES X-RAY DIFFRACTION
title	Ethanol sensor based on nanocrystallite cadmium ferrite
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