CVD graphene contacts for lateral heterostructure MoS2 field effect transistors

Lemme, Max C.

doi:10.1038/s41699-024-00471-y

Publication:
CVD graphene contacts for lateral heterostructure MoS2 field effect transistors

cris.lastimport.scopus	2024-08-05T05:08:18Z
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cris.virtual.unitManager	Kis, Andras
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datacite.rights	openaccess
dc.contributor.author	Schneider, Daniel S.
dc.contributor.author	Lucchesi, Leonardo
dc.contributor.author	Reato, Eros
dc.contributor.author	Wang, Zhenyu
dc.contributor.author	Piacentini, Agata
dc.contributor.author	Bolten, Jens
dc.contributor.author	Marian, Damiano
dc.contributor.author	Marin, Enrique G.
dc.contributor.author	Radenovic, Aleksandra
dc.contributor.author	Wang, Zhenxing
dc.contributor.author	Fiori, Gianluca
dc.contributor.author	Kis, Andras
dc.contributor.author	Iannaccone, Giuseppe
dc.contributor.author	Neumaier, Daniel
dc.contributor.author	Lemme, Max C.
dc.date.accessioned	2024-06-05T14:24:05
dc.date.available	2024-06-05T14:24:05
dc.date.created	2024-06-05
dc.date.issued	2024-05-10
dc.date.modified	2025-03-24T12:46:41.264276Z
dc.description.abstract	Intensive research has been carried out on two-dimensional materials, in particular molybdenum disulfide, towards high-performance field effect transistors for integrated circuits 1 . Fabricating transistors with ohmic contacts is a challenging task due to the formation of a high Schottky barrier that severely limits the performance of the transistors for real-world applications. Graphene-based heterostructures can be used in addition to, or as a substitute for unsuitable metals. In this paper, we present lateral heterostructure transistors made of scalable chemical vapor-deposited molybdenum disulfide and chemical vapor-deposited graphene achieving a low contact resistances of about 9 k Omegamu m and high on/off current ratios of 108. Furthermore, we also present a theoretical model calibrated on our experiments showing further potential for scaling transistors and contact areas into the few nanometers range and the possibility of a substantial performance enhancement by means of layer optimizations that would make transistors promising for use in future logic integrated circuits.
dc.description.sponsorship	LANES
dc.description.sponsorship	LBEN
dc.identifier.doi	10.1038/s41699-024-00471-y
dc.identifier.isi	WOS:001217990800001
dc.identifier.uri	https://infoscience.epfl.ch/handle/20.500.14299/208302
dc.publisher	Nature Portfolio
dc.publisher.place	Berlin
dc.relation	https://infoscience.epfl.ch/record/311379/files/document.pdf
dc.relation.grantno	829035
dc.relation.grantno	881603
dc.relation.grantno	407080863
dc.relation.grantno	16ME0399
dc.relation.issn	2397-7132
dc.relation.journal	Npj 2D Materials And Applications
dc.source	WoS
dc.subject	Technology
dc.subject	Physical Sciences
dc.subject	Monolayer Mos2
dc.subject	Resistance
dc.subject	Growth
dc.subject	Performance
dc.subject	Density
dc.subject	Limit
dc.subject	Ws2
dc.title	CVD graphene contacts for lateral heterostructure MoS2 field effect transistors
dc.type	text::journal::journal article::research article
dspace.entity.type	Publication
dspace.file.type	Publisher's version
dspace.legacy.oai-identifier	oai:infoscience.epfl.ch:311379
epfl.author.orcid	0000-0001-8194-2785
epfl.curator.email	jules.sachot-durette@epfl.ch
epfl.lastmodified.email	andras.kis@epfl.ch
epfl.legacy.itemtype	Journal Articles
epfl.legacy.submissionform	ARTICLE
epfl.oai.currentset	OpenAIREv4
epfl.oai.currentset	STI
epfl.oai.currentset	article
epfl.peerreviewed	REVIEWED
epfl.publication.version	http://purl.org/coar/version/c_970fb48d4fbd8a85
epfl.writtenAt	EPFL
oaire.citation.issue	1
oaire.citation.startPage	35
oaire.citation.volume	8
oaire.licenseCondition	CC BY
oaire.version	http://purl.org/coar/version/c_970fb48d4fbd8a85
oairecerif.author.affiliation	EPFL
oairecerif.funder	EC \| EU Framework Programme for Research and Innovation H2020 \| H2020 European Institute of Innovation and Technology (H2020 The European Institute of Innovation and Technology)
oairecerif.funder	European Union's Horizon 2020 research and innovation program
oairecerif.funder	Graphene Flagship
oairecerif.funder	German Research Foundation (DFG)
oairecerif.funder	German Ministry of Education and Research (BMBF)

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CVD graphene contacts for lateral heterostructure MoS2 field effect transistors