A novel room temperature ethanol sensor based on PbS: SnS2 nanocomposite with enhanced ethanol sensing properties
H Roshan, MH Sheikhi - Journal of Alloys and Compounds, 2020 - Elsevier
In this paper, for the first time, ethanol gas sensing ability of different molar ratios of PbS (x)
to SnS 2 (y)(in form of x: y) based sensor were evaluated to find out the optimized sample …
to SnS 2 (y)(in form of x: y) based sensor were evaluated to find out the optimized sample …
Stereolithography-Derived Three-Dimensional Pyrolytic Carbon/Mn3O4 Nanostructures for Free-Standing Hybrid Supercapacitor Electrodes
The development of permeable three-dimensional (3D) macroporous carbon architectures
loaded with active pseudocapacitive nanomaterials offers hybrid supercapacitor (SC) …
loaded with active pseudocapacitive nanomaterials offers hybrid supercapacitor (SC) …
Enhancement of room temperature ethanol sensing behavior of PbS–SnS2 nanocomposite by Au decoration
Resistive-based gas sensors generally work at high temperatures, and this leads to some
limitations in their applications in remote areas or low power consumption electronic …
limitations in their applications in remote areas or low power consumption electronic …
Fabrication of room temperature resistive ethanol gas sensor based on ZnO nanorods decorated with PbS nanoparticles
A resistive ethanol gas sensor with a high sensitivity has been proposed. The fabricated gas
sensor has a very promising response and recovery at room temperature. The proposed …
sensor has a very promising response and recovery at room temperature. The proposed …
Study the Effect of Pt–Ga Sensitization on Sol–Gel-Grown Nano-ZnO Thin-Film H2 Sensor
A Das, GG Jana, J Nandy, B Kantha, S Roy… - … , Machine Learning and …, 2022 - Springer
The highly sensitive hydrogen gas sensor has been fabricated by investigating the catalytic
effects of platinum (Pt) and galladium (Ga) on nanoparticle ZnO. The key aspects of the …
effects of platinum (Pt) and galladium (Ga) on nanoparticle ZnO. The key aspects of the …