Please use this identifier to cite or link to this item: http://hdl.handle.net/1942/31566
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dc.contributor.authorNyns, L.-
dc.contributor.authorLIN, Dan-
dc.contributor.authorBRAMMERTZ, Guy-
dc.contributor.authorBellenger, F.-
dc.contributor.authorShi, X.-
dc.contributor.authorSioncke, S.-
dc.contributor.authorVan Elshocht, S.-
dc.contributor.authorCaymax, M.-
dc.date.accessioned2020-08-05T12:20:44Z-
dc.date.available2020-08-05T12:20:44Z-
dc.date.issued2011-
dc.date.submitted2020-07-31T12:25:35Z-
dc.identifier.citationDIELECTRICS IN NANOSYSTEMS -AND- GRAPHENE, GE/III-V, NANOWIRES AND EMERGING MATERIALS FOR POST-CMOS APPLICATIONS 3, ELECTROCHEMICAL SOC INC, p. 465 -480-
dc.identifier.isbn978-1-60768-214-1-
dc.identifier.isbn978-1-56677-864-0-
dc.identifier.issn1938-5862-
dc.identifier.urihttp://hdl.handle.net/1942/31566-
dc.description.abstractA critical issue for the successful integration of Ge devices into future high-performance technology nodes is the electrical passivation of the Ge surface. We have examined this electrical passivation in terms of interface and border traps for several Ge-based gate stacks, where we varied amongst others the GeO2 thickness, the high-k material and the Post Deposition Anneal (PDA). The GeO2 thickness seems to have the largest impact, and an inverse relation between the density of interface traps D-it and border traps N-bt exists for GeO2 layers up to similar to 2 nm. We found that the most optimal passivation is achieved by using an (almost) oxide-free surface as this would result in the lowest Nbt. Although such a surface is characterized by a high mid-gap Dit, this can be improved by performing the correct PDA. We conclude that the most promising oxide-free surface is obtained after an H2S treatment.-
dc.language.isoen-
dc.publisherELECTROCHEMICAL SOC INC-
dc.titleInterface and Border Traps in Ge-Based Gate Stacks-
dc.typeProceedings Paper-
local.bibliographicCitation.conferencedateMAY 02-04, 2011-
local.bibliographicCitation.conferencename3rd International Symposium on Graphene, Ge/III-V, Nanowires and Emerging Materials for Post-CMOS Applications / Symposium on Tutorials in Nanotechnology-
local.bibliographicCitation.conferenceplaceMontreal, CANADA-
dc.identifier.epage480-
dc.identifier.issue3-
dc.identifier.spage465-
dc.identifier.volume35-
local.bibliographicCitation.jcatC1-
dc.description.notesNyns, L (corresponding author), IMEC, Kapeldreef 75, B-3001 Louvain, Belgium.-
local.publisher.place65 S MAIN ST, PENNINGTON, NJ 08534-2839 USA-
local.type.refereedRefereed-
local.type.specifiedProceedings Paper-
dc.identifier.doi10.1149/1.3569938-
dc.identifier.isiWOS:000309539300043-
dc.contributor.orcidBrammertz, Guy/0000-0003-1404-7339-
dc.identifier.eissn1938-6737-
local.provider.typewosris-
local.bibliographicCitation.btitleDIELECTRICS IN NANOSYSTEMS -AND- GRAPHENE, GE/III-V, NANOWIRES AND EMERGING MATERIALS FOR POST-CMOS APPLICATIONS 3-
local.uhasselt.uhpubyes-
local.description.affiliation[Nyns, L.; Lin, D.; Brammertz, G.; Shi, X.; Sioncke, S.; Van Elshocht, S.; Caymax, M.] IMEC, Kapeldreef 75, B-3001 Louvain, Belgium.-
local.description.affiliation[Bellenger, F.] CEA Grenoble, LETI, Dept D2NT LSCE, F-38054 Grenoble, France.-
item.fulltextNo Fulltext-
item.contributorNyns, L.-
item.contributorLIN, Dan-
item.contributorBRAMMERTZ, Guy-
item.contributorBellenger, F.-
item.contributorShi, X.-
item.contributorSioncke, S.-
item.contributorVan Elshocht, S.-
item.contributorCaymax, M.-
item.fullcitationNyns, L.; LIN, Dan; BRAMMERTZ, Guy; Bellenger, F.; Shi, X.; Sioncke, S.; Van Elshocht, S. & Caymax, M. (2011) Interface and Border Traps in Ge-Based Gate Stacks. In: DIELECTRICS IN NANOSYSTEMS -AND- GRAPHENE, GE/III-V, NANOWIRES AND EMERGING MATERIALS FOR POST-CMOS APPLICATIONS 3, ELECTROCHEMICAL SOC INC, p. 465 -480.-
item.accessRightsClosed Access-
crisitem.journal.issn2515-7655-
crisitem.journal.eissn2515-7655-
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