The work presents an efficient and non-invasive method to visualize the local concentration and viscosity distribution of two miscible and non-reacting substances with a significant viscosity difference in a microchannel with a Y-shape cell. The proof-of-concept setup consists of a near-infrared (NIR) camera and cost-effective dome lighting with NIR light-emitting diodes (LED) covering the wavelength range of 1050 to 1650 nm. Absorption differences of glycerol and water and their mixtures with a mass fraction of glycerol from 0 to 0.95 gGlycgtotal−1 were analyzed in the NIR spectral area. The resulting measurement images were converted in a concentration profile by using absorbance calculated with Lambert–Beer law. A linear behavior between the concentration and the absorption coefficient is demonstrated. The result of local concentration in mass fraction was used to determine the local viscosity and illustrated as distribution images. By variating the fluid parameters, the influences of the highly different original viscosities in the mixing procedure were investigated and visualized.
This paper presents finite element-based numerical simulation and performance analysis of dual and single gate pentacene-based organic thin film transistors (OTFTs) using technology computer-aided design (TCAD) tools. Electrical characteristics of the devices have been simulated using 2D numerical device simulation software ATLAS™ from Silvaco International. Also, device parameters like threshold voltage, mobility, transconductance, subthreshold swing and current on/off ratio of the single and dual gate OTFTs have been extracted and compared.
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