C. G. Dighavkar scite author profile

In this paper, gas sensing property of a nitrogen doped ZnO was studied. nanofilms of pure and nitrogen-doped ZnO (0.1, 0.2 and 0.3 normality) were prepared on glass substrate by spray pyrolysis technique. These films were fired at 450°C for two hours in air atmosphere. nanobehavior of the films was confirmed by XRD and SEM analysis. Gas sensing behavior of the films was tested in static gas sensing system. Films were exposed to different gases as LPG.NH3, NO2, Ethanol vapour and CO2 at different ppm concentrations and different operating temperatures. Pure ZnO films showed poor sensing behavior. At 150°C, films of N-doped ZnO (0.3 normality) showed good sensing for Ethanol vapours. The gas sensitivity was determined as 86.8% for 200 ppm of Ethanol vapours. When compared with pure ZnO, the nitrogen doped ZnO films possessed more oxygen deficient species. Due to this crystal defects arising from nitrogen doping, the improvement in gas sensing property of ZnO may be argued. Keywords: Spray pyrolysis; ZnO; N; XRD; SEM; LPG

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Forming of Room Ambient PSS Cell using F-127 with PVA Blend as a Hole Transport Material

Dhumal¹,

Dighavkar²,

Patil³

et al. 2021

IJFMR

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In the present wok we have focused on the synthesis and characterization of perovskite material using solid polymer electrolyte, based on PVA and F-127 blend. We studied detail information about perovskite material, methods as well as its characteristics detail in this paper. We revealed the data by XRD, SEM and UV absorption spectroscopy which was closely connected with the dielectric parameters. We successfully synthesized and tested CH3NH3PbI3 perovskite material. The XRD pattern conforms that the pure perovskite material is formed. From SEM image we defiantly say that the formed material is crystalline structure. The find out the perovskite material bandgap was 2.36 eV using UV.

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C. G. Dighavkar

Semiconductor metal oxide compounds based gas sensors: A literature review

Ethanol Vapour Sensing Property of Nitrogen Doped ZnO Fabricated by Spray Pyrolysis

Forming of Room Ambient PSS Cell using F-127 with PVA Blend as a Hole Transport Material

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