Advances in flame synthesis of nano-scale architectures for chemical, biomolecular, plasmonic, and light sensing

Abstract: Flame spray pyrolysis (FSP), a key technique under the broader category of flame aerosol synthesis, is being increasingly explored for the design of advanced miniaturized sensor architectures with applications including...

“…The resulting films exhibit desirable characteristics for gas sensing applications, such as high surface area, optimized morphology, and tailored composition, which are crucial for enhanced gas adsorption and response. 95,96 Thin films prepared by AACVD greatly depend on the growth rate and the precursor concentration. A significant increase in the growth rate, reaching approximately 100 nm min −1 , was observed by increasing the precursor concentration in the solution for transparent oxide coatings.…”

Emerging trends in metal oxide-based electronic noses for healthcare applications: a review

“…The resulting films exhibit desirable characteristics for gas sensing applications, such as high surface area, optimized morphology, and tailored composition, which are crucial for enhanced gas adsorption and response. 95,96 Thin films prepared by AACVD greatly depend on the growth rate and the precursor concentration. A significant increase in the growth rate, reaching approximately 100 nm min −1 , was observed by increasing the precursor concentration in the solution for transparent oxide coatings.…”

Emerging trends in metal oxide-based electronic noses for healthcare applications: a review

Development of highly sensitive UV photodetector based on chevronic TiO2 thin film using simple oblique angle deposition technique