Detection of organic vapours employing droplets having nanoparticles

Abstract: In this paper, a droplet based organic vapour detection technique is discussed. The detection was based on solutal Marangoni effect where a strong circulation of fluid was observed inside a droplet once an organic vapour source was introduced near the vicinity of the droplet surface. The reason behind the rotational motion was the surface tension gradient created on the air-droplet and vapour-droplet interfaces. Different organic vapours produced rotational motion of different magnitudes inside the droplet bas… Show more

“…With this EOT the current-voltage characteristic of PSFET is examined using Semiconductor module in COMSOL as normal NMOS device of variable gate oxide thickness. The semiconductor module solves Poisson's equation for the charge carriers [18]:…”

Performance Optimization of Pressure Sensor Based on Suspended Gate MOSFET

“…With this EOT the current-voltage characteristic of PSFET is examined using Semiconductor module in COMSOL as normal NMOS device of variable gate oxide thickness. The semiconductor module solves Poisson's equation for the charge carriers [18]:…”

Performance Optimization of Pressure Sensor Based on Suspended Gate MOSFET

Organic vapour detection with nanoparticle suspended salt solution droplet and the effect of viscosity and vapour-source distance