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Your search keyword '"Dehkordi, Hamed Aleebrahim"' showing total 6 results
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6 results on '"Dehkordi, Hamed Aleebrahim"'

1. High Sensitive $\alpha$-Fe$_2$O$_3$ Nano-structured Gas Sensor Fabricated through Annealing Technique for Detecting Ethanol

Author

Dehkordi, Hamed Aleebrahim, Mokhtari, Ali, Soleimanian, Vishtasb, and Ghasemi, Mohsen

Subjects
Physics - Instrumentation and Detectors, Condensed Matter - Materials Science, Physics - Chemical Physics
Abstract

On the way to advance the sensing technology, various strategies based on the nano-materials have been introduced to improve the performance of the gas sensors. In this study, we have introduced a facile fabrication procedure for annealing hematite to monitor ethanol gas. Due to large specific area of this conductive platform, more available target molecules (ethanol gas) are detected. To construct this platform, initially, a large scale well-separated iron oxide (hematite) nanostructures are created via an annealing process. The morphology of the nanostructure is optimized through annealing temperature and operating temperature for ethanol gas. The best response for the gas sensor is achieved for hematite nanostructures fabricated through the annealing temperature of 500{\deg}C and the operating temperature of 225$^\circ$C. The fabricated nanostructures is tested in air ambient conditions for various ethanol gas concentrations from 50 to 1000 ppm. The modified sensor exhibited acceptable reproducibility and good selectivity with no interference-effect. To examine the X-ray diffraction patterns of hematite nanostructures at three annealed temperatures, the Rietveld method and FullProf software are used in which the average crystal size has been obtained. Obviously, with increasing the annealing temperature, the average size of the crystals has been increased. The results of ultraviolet-visible spectroscopy show that the energy gap decreased with increasing annealing temperature. The maximum sensing response of hematite flower-like nanostructures is obtained at a concentration of 1000 ppm. Also, the shortest response time is estimated at about 27 seconds for ethanol at a concentration of 200 ppm. The detection limit of this sensor is obtained at 50 ppm.

Published
2023

4. High Sensitive Α-Fe2o3 Nano-Structured Gas Sensor Fabricated Through Annealing Technique for Detecting Ethanol

Author

Dehkordi, Hamed Aleebrahim, Mokhtari, Ali, Soleimanian, Vishtasb, and Ghasemi, Mohsen

Subjects
Chemical Physics (physics.chem-ph), Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det)
Abstract

On the way to advance the sensing technology, various strategies based on the nano-materials have been introduced to improve the performance of the gas sensors. In this study, we have introduced a facile fabrication procedure for annealing hematite to monitor ethanol gas. Due to large specific area of this conductive platform, more available target molecules (ethanol gas) are detected. To construct this platform, initially, a large scale well-separated iron oxide (hematite) nanostructures are created via an annealing process. The morphology of the nanostructure is optimized through annealing temperature and operating temperature for ethanol gas. The best response for the gas sensor is achieved for hematite nanostructures fabricated through the annealing temperature of 500°C and the operating temperature of 225$^\circ$C. The fabricated nanostructures is tested in air ambient conditions for various ethanol gas concentrations from 50 to 1000 ppm. The modified sensor exhibited acceptable reproducibility and good selectivity with no interference-effect. To examine the X-ray diffraction patterns of hematite nanostructures at three annealed temperatures, the Rietveld method and FullProf software are used in which the average crystal size has been obtained. Obviously, with increasing the annealing temperature, the average size of the crystals has been increased. The results of ultraviolet-visible spectroscopy show that the energy gap decreased with increasing annealing temperature. The maximum sensing response of hematite flower-like nanostructures is obtained at a concentration of 1000 ppm. Also, the shortest response time is estimated at about 27 seconds for ethanol at a concentration of 200 ppm. The detection limit of this sensor is obtained at 50 ppm.

Published
2023

6. Synthesis of Fe3O4/polyaniline nanocomposite and its application for nitrate removal from aqueous solutions.

Author

Katal, Reza, Pourkarimi, Sara, Bahmani, Ehsan, Dehkordi, Hamed Aleebrahim, Ghayyem, Mohhamad Ali, and Esfandian, Hussein

Abstract

The aim of this work was to investigate the sorption characteristics of Fe3O4 coated on polyaniline (Fe3O4/PAn) for the removal of NO3 ions from aqueous solutions. The sorption of NO3 ions by the batch method was carried out. The optimum conditions of sorption were found to be a Fe3O4/PAn dose of 0.4 g in 100 mL of NO3 solution, a contact time of 10 min, pH and temperature 7 and 40°C, respectively. Temperature had a negative effect on the removal efficiency. Three equations, i.e., Morris-Weber, Lagergren, and pseudo-second-order, were tested to track the kinetics of the removal process. The Langmuir, Freundlich, and Dubinin-Radushkevich isotherm models were subjected to sorption data in order to estimate sorption capacity, intensity, and energy. The thermodynamic parameters Δ H, Δ S, and Δ G were evaluated. They showed that the adsorption of NO3 onto Fe3O4/PAn was feasible, spontaneous, and exothermic under the studied conditions. It can be concluded that Fe3O4/PAn has potential to remove NO3 ions from aqueous solutions at different concentrations. The system Fe3O4/Pan was successfully tested for a high removal efficiency of NO3 from urban wastewater. J. VINYL ADDIT. TECHNOL., 19:147-156, 2013. © 2013 Society of Plastics Engineers [ABSTRACT FROM AUTHOR]

Published
2013
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