Issue 9, 2018

Patterned tungsten disulfide/graphene heterostructures for efficient multifunctional optoelectronic devices

Abstract

One of the major issues in graphene-based optoelectronics is to scale-up high-performing devices. In this work, we report an original approach for the fabrication of efficient optoelectronic devices from scalable tungsten disulfide (WS2)/graphene heterostructures. Our approach allows for the patterned growth of WS2 on graphene and facilitates the realization of ohmic contacts. Photodetectors fabricated with WS2 on epitaxial graphene on silicon carbide (SiC) present, when illuminated with red light, a maximum responsivity R ∼220 A W−1, a detectivity D* ∼2.0 × 109 Jones and a −3 dB bandwidth of 250 Hz. The retrieved detectivity is 3 orders of magnitude higher than that obtained with graphene-only devices at the same wavelength. For shorter illumination wavelengths we observe a persistent photocurrent with a nearly complete charge retention, which originates from deep trap levels in the SiC substrate. This work ultimately demonstrates that WS2/graphene optoelectronic devices with promising performances can be obtained in a scalable manner. Furthermore, by combining wavelength-selective memory, enhanced responsivity and fast detection, this system is of interest for the implementation of 2d-based data storage devices.

Graphical abstract: Patterned tungsten disulfide/graphene heterostructures for efficient multifunctional optoelectronic devices

Supplementary files

Article information

Article type
Paper
Submitted
21 Nov 2017
Accepted
06 Feb 2018
First published
07 Feb 2018
This article is Open Access
Creative Commons BY license

Nanoscale, 2018,10, 4332-4338

Patterned tungsten disulfide/graphene heterostructures for efficient multifunctional optoelectronic devices

A. Rossi, D. Spirito, F. Bianco, S. Forti, F. Fabbri, H. Büch, A. Tredicucci, R. Krahne and C. Coletti, Nanoscale, 2018, 10, 4332 DOI: 10.1039/C7NR08703A

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