Highly transparent conductive stoichiometric nanocrystalline stannic oxide coatings were deposited onto Corning®EAGLE XG®slim glass substrates.Including each coating,it was deposited for various concentratio...Highly transparent conductive stoichiometric nanocrystalline stannic oxide coatings were deposited onto Corning®EAGLE XG®slim glass substrates.Including each coating,it was deposited for various concentrations in the aerosol solution with the substrate temperature maintained at 623.15 K by an ultrasonic spray pyrolysis(USP)technique.Nitrogen was em-ployed both as the solution carrier in addition to aerosol directing gas,maintaining its flow rates at 3500.0 and 500.0 mL/min,respectively.The coatings were polycrystalline,with preferential growth along the stannic oxide(112)plane,irrespective of the molarity content in the spray solution.The coating prepared at 0.2 M,a concentration in the aerosol solution,showed an average transmission of 60%in the visible light region spectrum with a maximum conductivity of 24.86 S/cm.The coatings deposited exhibited in the general photoluminescence spectrum emission colors of green,greenish white,and bluish white calculated on the intensities of the excitonic and oxygen vacancy defect level emissions.展开更多
A SnO2-doped dicalcium phosphate coating was prepared on AZ31 alloy by means of hydrothermal deposition.The results showed that the coating possessed a globular morphology with a long lamellar crystalline structure an...A SnO2-doped dicalcium phosphate coating was prepared on AZ31 alloy by means of hydrothermal deposition.The results showed that the coating possessed a globular morphology with a long lamellar crystalline structure and a thickness of approximately 40 mm.The surface of the coating became smooth with an increase additive amount of the SnO2 nanoparticles.The corrosion current density and hydrogen evolution rate of the coating prepared in presence of SnO2 were reduced compared to the coating without SnO2 and the bare AZ31 substrate,indicating an improvement in the corrosion resistance of the SnO2-doped coating.展开更多
基金the financial support from the Escuela Superior de Medicina,Instituto Politécnico Nacional,through Project No.20210385。
文摘Highly transparent conductive stoichiometric nanocrystalline stannic oxide coatings were deposited onto Corning®EAGLE XG®slim glass substrates.Including each coating,it was deposited for various concentrations in the aerosol solution with the substrate temperature maintained at 623.15 K by an ultrasonic spray pyrolysis(USP)technique.Nitrogen was em-ployed both as the solution carrier in addition to aerosol directing gas,maintaining its flow rates at 3500.0 and 500.0 mL/min,respectively.The coatings were polycrystalline,with preferential growth along the stannic oxide(112)plane,irrespective of the molarity content in the spray solution.The coating prepared at 0.2 M,a concentration in the aerosol solution,showed an average transmission of 60%in the visible light region spectrum with a maximum conductivity of 24.86 S/cm.The coatings deposited exhibited in the general photoluminescence spectrum emission colors of green,greenish white,and bluish white calculated on the intensities of the excitonic and oxygen vacancy defect level emissions.
文摘A SnO2-doped dicalcium phosphate coating was prepared on AZ31 alloy by means of hydrothermal deposition.The results showed that the coating possessed a globular morphology with a long lamellar crystalline structure and a thickness of approximately 40 mm.The surface of the coating became smooth with an increase additive amount of the SnO2 nanoparticles.The corrosion current density and hydrogen evolution rate of the coating prepared in presence of SnO2 were reduced compared to the coating without SnO2 and the bare AZ31 substrate,indicating an improvement in the corrosion resistance of the SnO2-doped coating.
