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dc.contributor.authorAtxabal, Ainhoa-
dc.contributor.authorArnold, Thorsten-
dc.contributor.authorParui, Subir-
dc.contributor.authorZuccatti, Elisabetta-
dc.contributor.authorCinchetti, Mirko-
dc.contributor.authorCasanova, Felix-
dc.contributor.authorOrtmann, Frank-
dc.contributor.authorHueso, Luis E.-
dc.date.accessioned2020-09-07T13:44:47Z-
dc.date.available2020-09-07T13:44:47Z-
dc.date.issued2019-03-18-
dc.identifier.urihttp://hdl.handle.net/2003/39268-
dc.identifier.urihttps://doi.org/10.17877/DE290R-21169-
dc.description.abstractThe quantification of the electronic transport energy gap of a molecular semiconductor is essential for pursuing any challenge in molecular optoelectronics. However, this remains largely elusive because of the difficulties in its determination by conventional spectroscopic methods. This communication presents an in-device molecular spectroscopy (i-MOS) technique, which permits measuring this gap seamlessly, in real device operative conditions, at room temperature and without any previous knowledge of the material's parameters. This result is achieved by determining the occupied and unoccupied molecular orbitals of an organic semiconductor thin-film by using a single three terminal solid-state device.en
dc.language.isoende
dc.relation.ispartofseriesMaterials horizons;2019, 6, 1663--166-
dc.subject.ddc530-
dc.titleMolecular spectroscopy in a solid-state deviceen
dc.typeTextde
dc.type.publicationtypearticlede
dcterms.accessRightsopen access-
eldorado.openaire.projectidentifierinfo:eu-repo/grantAgreement/EC/H2020/725767/EU/Coherent optical control of multi-functional nano-scale hybrid units/hyControlde
eldorado.secondarypublicationtruede
eldorado.secondarypublication.primaryidentifierhttps://doi.org/10.1039/C9MH00218Ade
eldorado.secondarypublication.primarycitationMaterials Horizons. Vol.6. 2019, 1663-1668en
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