Covalent photofunctionalization and electronic repair of 2H-MoS2via nitrogen incorporation

Helena Osthues; Christian Schwermann; Johann A. Preuß; Thorsten Deilmann; Rudolf Bratschitsch; Michael Rohlfing; Nikos L. Doltsinis

doi:10.1039/D1CP02313F

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Covalent photofunctionalization and electronic repair of 2H-MoS₂via nitrogen incorporation†

Helena Osthues,

^a Christian Schwermann,

^a Johann A. Preuß,

^b Thorsten Deilmann,

^a Rudolf Bratschitsch,

^b Michael Rohlfing^a and Nikos L. Doltsinis

*^a

Author affiliations

* Corresponding authors

^a Institute for Solid State Theory and Center for Multiscale Theory and Computation, Westfälische Wilhelms-Universität Münster, Wilhelm-Klemm-Str. 10, 48149 Münster, Germany
E-mail: nikos.doltsinis@wwu.de
Fax: +49 251 83 33669
Tel: +49 251 83 33582

^b Institute of Physics and Center for Nanotechnology, Westfälische Wilhelms-Universität Münster, Wilhelm-Klemm-Str. 10, 48149 Münster, Germany

Abstract

A route towards covalent functionalization of chemically inert 2H-MoS₂ exploiting sulfur vacancies is explored by means of (TD)DFT and GW/BSE calculations. Functionalization via nitrogen incorporation at sulfur vacancies is shown to result in more stable covalent binding than via thiol incorporation. In this way, defective monolayer MoS₂ is repaired and the quasiparticle band structure as well as the remarkable optical properties of pristine MoS₂ are restored. Hence, defect-free functionalization with various molecules is possible. Our results for covalently attached azobenzene, as a prominent photo-switch, pave the way to create photoresponsive two-dimensional (2D) materials.

This article is part of the themed collection: Insights into 2D Materials

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Article information

DOI: https://doi.org/10.1039/D1CP02313F
Article type: Paper
Submitted: 25 5 2021
Accepted: 13 8 2021
First published: 13 8 2021

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Phys. Chem. Chem. Phys., 2021,23, 18517-18524

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Covalent photofunctionalization and electronic repair of 2H-MoS₂via nitrogen incorporation

H. Osthues, C. Schwermann, J. A. Preuß, T. Deilmann, R. Bratschitsch, M. Rohlfing and N. L. Doltsinis, Phys. Chem. Chem. Phys., 2021, 23, 18517 DOI: 10.1039/D1CP02313F

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