Finite Element Method based Modelling and Study of the Electrical Characteristics of Nano MOSFET for Carbon Capture

  • Dr. P. Geetha, H. D. Praveena
Keywords: carbon capture and storage, carbon nitride, device modelling, Nano MOSFET, Nano pores.

Abstract

The global warming is mainly due to the emission of greenhouse gases viz., CO2, methane and nitrous oxide that leads to various environmental issues. People get exposed to the carbon emission suffer from serious health issues. In particular, inhaling such gases causes respiratory diseases. To address this challenge, the carbon level in the atmosphere that has reached 400 ppm has to be controlled and recycled. In this paper, Nano MOSFET device is developed for the absorption and analysis of carbon content from the atmosphere. The process of the Nano MOSFET inculcates the gate material that is functionalized with nano porous Carbon Nitrides as carbon absorbent. The electrical characteristics of the device are studied. From the results, it is found that the variation in the thickness of the carbon nitride because of carbon absorption reduces the flow of IDS (Drain current). It is proved that the deposition of carbon on the device, influenced the flow of current and the device can be used for analysing the amount of carbon captured from the environment.

Published
2021-10-14
How to Cite
Dr. P. Geetha, H. D. Praveena. (2021). Finite Element Method based Modelling and Study of the Electrical Characteristics of Nano MOSFET for Carbon Capture. Design Engineering, 4073-4087. Retrieved from http://www.thedesignengineering.com/index.php/DE/article/view/5353
Section
Articles