Issue 8, 2021
From the journal:

Materials Horizons

Room temperature optoelectronic devices operating with spin crossover nanoparticles

Jean-Francois Dayen, ORCID logo ab   Nikita Konstantinov,a   Marlène Palluel,ac   Nathalie Daro,c   Bohdan Kundys,a   Mohamed Soliman,a   Guillaume Chastanet ORCID logo *c  and  Bernard Doudin ORCID logo *a  

* Corresponding authors

a Université de Strasbourg, CNRS, Institut de Physique et Chimie des Matériaux de Strasbourg (IPCMS), UMR 7504, 23 rue du Loess, Strasbourg, France
E-mail: bernard.doudin@ipcms.unistra.fr

b Institut Universitaire de France (IUF), 1 rue Descartes, Paris Cedex 05 75231, France

c CNRS, Univ. Bordeaux, Bordeaux INP, ICMCB, UMR 5026, 87 Av. Dr A. Schweitzer, Pessac F-33600, France
E-mail: guillaume.chastanet@icmcb.cnrs.fr

Abstract

Molecular systems can exhibit multi-stimuli switching of their properties, with spin crossover materials having unique magnetic transition triggered by temperature and light, among others. Light-induced room temperature operation is however elusive, as optical changes between metastable spin states require cryogenic temperatures. Furthermore, electrical detection is hampered by the intrinsic low conductivity properties of these materials. We show here how a graphene underlayer reveals the light-induced heating that triggers a spin transition, paving the way for using these molecules for room temperature optoelectronic applications.

Graphical abstract: Room temperature optoelectronic devices operating with spin crossover nanoparticles

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Article information

DOI
https://doi.org/10.1039/D1MH00703C
Article type
Communication
Submitted
29 Apr 2021
Accepted
09 Jun 2021
First published
09 Jun 2021

Mater. Horiz., 2021,8, 2310-2315

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Room temperature optoelectronic devices operating with spin crossover nanoparticles

J. Dayen, N. Konstantinov, M. Palluel, N. Daro, B. Kundys, M. Soliman, G. Chastanet and B. Doudin, Mater. Horiz., 2021, 8, 2310 DOI: 10.1039/D1MH00703C

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