Authors
Sandhya Susarla, Alex Kutana, Jordan A Hachtel, Vidya Kochat, Amey Apte, Robert Vajtai, Juan Carlos Idrobo, Boris I Yakobson, Chandra Sekhar Tiwary, Pulickel M Ajayan
Publication date
2017/9
Journal
Advanced Materials
Volume
29
Issue
35
Pages
1702457
Description
Alloying/doping in 2D material is important due to wide range bandgap tunability. Increasing the number of components would increase the degree of freedom which can provide more flexibility in tuning the bandgap and also reduces the growth temperature. Here, synthesis of quaternary alloys MoxW1−xS2ySe2(1−y) is reported using chemical vapor deposition. The composition of alloys is tuned by changing the growth temperatures. As a result, the bandgap can be tuned which varies from 1.61 to 1.85 eV. The detailed theoretical calculation supports the experimental observation and shows a possibility of wide tunability of bandgap.
Scholar articles
S Susarla, A Kutana, JA Hachtel, V Kochat, A Apte… - Advanced Materials, 2017
S Susarla, A Kutana, J Hachtel, V Kochat, A Apte… - APS March Meeting Abstracts, 2018
S Susarla, A Kutana, JA Hachtel, V Kochat, A Apte…