Humidity Sensing Ceria Thin-Films

Abstract: Lowering the constitutive domains of semiconducting oxides to the nano-range has recently opened up the possibility of added benefit in the research area of sensing materials, in terms both of greater specific surface area and pore volume. Among such nanomaterials, ceria has attracted much attention; therefore, we chemically derived homogeneous ceria nanoparticle slurries. One set of samples was tape-casted onto a conducting glass substrate to form thin-films of various thicknesses, thereby avoiding demanding … Show more

“…[7][8][9][10] The sensing film is a key component to the majority of fiber optic sensors in detecting chemical gases and humidity. 11,12) Oxides are inherently easy to bind molecules of many chemical gases and moisture, which is beneficial to achieve a low detection limit and high sensitivity. ZnO, SnO 2 , and WO 3 have been widely used to decorate fiber optic sensors.…”

Humidity sensing by tailoring light absorption of SiO₂/bromophenol blue (BPB) thin film on optical fiber

“…[7][8][9][10] The sensing film is a key component to the majority of fiber optic sensors in detecting chemical gases and humidity. 11,12) Oxides are inherently easy to bind molecules of many chemical gases and moisture, which is beneficial to achieve a low detection limit and high sensitivity. ZnO, SnO 2 , and WO 3 have been widely used to decorate fiber optic sensors.…”

Humidity sensing by tailoring light absorption of SiO₂/bromophenol blue (BPB) thin film on optical fiber

CdSe QDs modified cellulose microfibrils for enhanced humidity sensing properties

Performance analysis of humidity sensor prepared by CeO2/molecular sieves type 4A composite