![]() The analytical results agree with the numerical analysis hence the conceptual design is fit for fabrication based on the design analysis and evaluation. The stress of the machine components is less than the yield strength of the selected materials, making the machine fit and workable. The simulation results revealed a lesser maximum stress of 6.323 MPa for the furnace outer casing under the action of load with a displacement of 0.0795 mm. In this study, a simulation-based analytical design for aluminium recycling processing plant was carried out to ascertain the efficiency and reliability of the design before fabrication using finite element analysis (FEA) approach. Hence, there is a need to design a system capable of converting these wastes into usable products. Indiscriminate disposal of beverage cans as waste poses a great threat to the environment, causing flooding, landfill, and blockage of drainages, leading to land pollution and sometimes accident. Biomolecule position inside the cavity have been investigated to find out their effect on sensitivity parameter. ![]() The change in the threshold voltage, drain current, transconductance has been used as the sensing metric to detect the sensitivity of the presented device for biomolecule detection. The detection of the biomolecule is done by varying the gate dielectric constant inside the cavity and different electrical parameters such as electric field, sensing current, threshold voltage and transconductance are observed. The proposed device shows reduced short channel effects, lower subthreshold swing along with a higher voltage gain. It is observed that Junction less TFET has advantageous over JLFET and TFETdue to the absence of junctions. An investigation regarding properties and behavior device has been investigated with the help of Silvaco TCAD. ![]() In this paper, we present a double gate JL-TFET based biosensor by varying the gate dielectric constant to detect various biomolecules through label-free detection technique. ![]()
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January 2023
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