Collective molecular switching in hybrid superlattices for light-modulated two-dimensional electronics

Collective molecular switching in hybrid superlattices for light-modulated two-dimensional electronics

Photochromic molecules offer the unique opportunity to demonstrate multifunctional devices with light-tunable electrical characteristics. Gobbi et al. build light-switchable electronic heterojunctions based on atomically precise, photo-reversible molecular superlattices on graphene and MoS2.

Guardado en:
Detalles Bibliográficos
Autores principales: Marco Gobbi, Sara Bonacchi, Jian X. Lian, Alexandre Vercouter, Simone Bertolazzi, Björn Zyska, Melanie Timpel, Roberta Tatti, Yoann Olivier, Stefan Hecht, Marco V. Nardi, David Beljonne, Emanuele Orgiu, Paolo Samorì
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2018
Materias:
Science
Q
Acceso en línea:https://doaj.org/article/e82ecb658beb4d62908ef78ae91f90da
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:e82ecb658beb4d62908ef78ae91f90da
record_format dspace
spelling oai:doaj.org-article:e82ecb658beb4d62908ef78ae91f90da2021-12-02T17:31:12ZCollective molecular switching in hybrid superlattices for light-modulated two-dimensional electronics10.1038/s41467-018-04932-z2041-1723https://doaj.org/article/e82ecb658beb4d62908ef78ae91f90da2018-07-01T00:00:00Zhttps://doi.org/10.1038/s41467-018-04932-zhttps://doaj.org/toc/2041-1723Photochromic molecules offer the unique opportunity to demonstrate multifunctional devices with light-tunable electrical characteristics. Gobbi et al. build light-switchable electronic heterojunctions based on atomically precise, photo-reversible molecular superlattices on graphene and MoS2.Marco GobbiSara BonacchiJian X. LianAlexandre VercouterSimone BertolazziBjörn ZyskaMelanie TimpelRoberta TattiYoann OlivierStefan HechtMarco V. NardiDavid BeljonneEmanuele OrgiuPaolo SamorìNature PortfolioarticleScienceQENNature Communications, Vol 9, Iss 1, Pp 1-9 (2018)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Marco Gobbi
Sara Bonacchi
Jian X. Lian
Alexandre Vercouter
Simone Bertolazzi
Björn Zyska
Melanie Timpel
Roberta Tatti
Yoann Olivier
Stefan Hecht
Marco V. Nardi
David Beljonne
Emanuele Orgiu
Paolo Samorì
Collective molecular switching in hybrid superlattices for light-modulated two-dimensional electronics
description Photochromic molecules offer the unique opportunity to demonstrate multifunctional devices with light-tunable electrical characteristics. Gobbi et al. build light-switchable electronic heterojunctions based on atomically precise, photo-reversible molecular superlattices on graphene and MoS2.
format article
author Marco Gobbi
Sara Bonacchi
Jian X. Lian
Alexandre Vercouter
Simone Bertolazzi
Björn Zyska
Melanie Timpel
Roberta Tatti
Yoann Olivier
Stefan Hecht
Marco V. Nardi
David Beljonne
Emanuele Orgiu
Paolo Samorì
author_facet Marco Gobbi
Sara Bonacchi
Jian X. Lian
Alexandre Vercouter
Simone Bertolazzi
Björn Zyska
Melanie Timpel
Roberta Tatti
Yoann Olivier
Stefan Hecht
Marco V. Nardi
David Beljonne
Emanuele Orgiu
Paolo Samorì
author_sort Marco Gobbi
title Collective molecular switching in hybrid superlattices for light-modulated two-dimensional electronics
title_short Collective molecular switching in hybrid superlattices for light-modulated two-dimensional electronics
title_full Collective molecular switching in hybrid superlattices for light-modulated two-dimensional electronics
title_fullStr Collective molecular switching in hybrid superlattices for light-modulated two-dimensional electronics
title_full_unstemmed Collective molecular switching in hybrid superlattices for light-modulated two-dimensional electronics
title_sort collective molecular switching in hybrid superlattices for light-modulated two-dimensional electronics
publisher Nature Portfolio
publishDate 2018
url https://doaj.org/article/e82ecb658beb4d62908ef78ae91f90da
work_keys_str_mv AT marcogobbi collectivemolecularswitchinginhybridsuperlatticesforlightmodulatedtwodimensionalelectronics
AT sarabonacchi collectivemolecularswitchinginhybridsuperlatticesforlightmodulatedtwodimensionalelectronics
AT jianxlian collectivemolecularswitchinginhybridsuperlatticesforlightmodulatedtwodimensionalelectronics
AT alexandrevercouter collectivemolecularswitchinginhybridsuperlatticesforlightmodulatedtwodimensionalelectronics
AT simonebertolazzi collectivemolecularswitchinginhybridsuperlatticesforlightmodulatedtwodimensionalelectronics
AT bjornzyska collectivemolecularswitchinginhybridsuperlatticesforlightmodulatedtwodimensionalelectronics
AT melanietimpel collectivemolecularswitchinginhybridsuperlatticesforlightmodulatedtwodimensionalelectronics
AT robertatatti collectivemolecularswitchinginhybridsuperlatticesforlightmodulatedtwodimensionalelectronics
AT yoannolivier collectivemolecularswitchinginhybridsuperlatticesforlightmodulatedtwodimensionalelectronics
AT stefanhecht collectivemolecularswitchinginhybridsuperlatticesforlightmodulatedtwodimensionalelectronics
AT marcovnardi collectivemolecularswitchinginhybridsuperlatticesforlightmodulatedtwodimensionalelectronics
AT davidbeljonne collectivemolecularswitchinginhybridsuperlatticesforlightmodulatedtwodimensionalelectronics
AT emanueleorgiu collectivemolecularswitchinginhybridsuperlatticesforlightmodulatedtwodimensionalelectronics
AT paolosamori collectivemolecularswitchinginhybridsuperlatticesforlightmodulatedtwodimensionalelectronics
_version_ 1718380707130114048

Ejemplares similares