2D material based field effect transistors and nanoelectromechanical systems for sensing applications

Author(s)

Kajale, Shivam Nitin; Yadav, Shubham; Cai, Yubin; Joy, Baju; Sarkar, Deblina

Abstract

Sensors are ubiquitous in modern society because of their wide applications in healthcare, security, forensic industries as well as environmental protection. Specifically, sensors which can be microfabricated employing very-large-scale-integration (VLSI) compatible microfabrication techniques are particularly desirable. This is because they can provide several advantages: small size, low cost, and possibility of mass fabrication. 2D materials are a promising building block for such sensors. Their atomically thin nature, flat surfaces and ability to form van der Waals hetero junctions opens up the pathway for versatile functionalities. Here, we review 2D material-based field-effect-transistors (FETs) and nano-electro-mechanical systems (NEMs) for applications in detecting different gases, chemicals, and biomolecules. We will provide insights into the unique advantages of these materials for these sensing applications and discuss the fabrication methods, detection schemes and performance pertaining to these technologies. Finally, we will discuss the current challenges and prospects for this field.

Date issued

2021

URI

https://hdl.handle.net/1721.1/146589

Department

Program in Media Arts and Sciences (Massachusetts Institute of Technology)

Journal

iScience

Publisher

Elsevier BV

Citation

Kajale, Shivam Nitin, Yadav, Shubham, Cai, Yubin, Joy, Baju and Sarkar, Deblina. 2021. "2D material based field effect transistors and nanoelectromechanical systems for sensing applications." iScience, 24 (12).

Version: Final published version