Effect of working pressure on the electrochemical performance of thin film SnO2 microbattery anodes deposited by radio frequency magnetron sputtering

natural gas reduces carbon dioxide by 47.2%, and natural gas reforming and incineration of synthesis gas reduces carbon dioxide by 45.3%. It is possible to remove the formed carbon dioxide from the flue gases, compress it and then utilize it.

Applications insulated metal substrates (IMS) for high-density and high-power mounting are greatly extending with miniaturizing of electronic components. Recently, aluminum nitride film has been used as a potential insulator and/or passivation material in insulated metal substrate because of its hig

## Abstract Ba~0.6~Sr~0.4~TiO~3~ (BST) thin films with the thickness of 300 nm were deposited on Pt/SiO~2~/Si substrates at various deposition temperatures by RF magnetron sputtering technique, and their electric properties were investigated. Due to the high temperature annealing process at substra

Gas-sensitive tin oxide films of varying thickness prepared by a two-step metal-film deposition/thermal-oxidation technique respond selectively to low levels of NO, in the presence of high reducing-gas concentrations. Optimization studies show that an increase in film thickness leads to increased hy