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Study of the temperature dependent trap-dominated conduction in GeSe and GeSe<sub>2</sub> Ovonic threshold switching selectors

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cris.virtual.department#PLACEHOLDER_PARENT_METADATA_VALUE#
cris.virtual.department#PLACEHOLDER_PARENT_METADATA_VALUE#
cris.virtual.orcid0000-0002-5156-0177
cris.virtual.orcid#PLACEHOLDER_PARENT_METADATA_VALUE#
cris.virtualsource.departmentc521d28e-b279-4f2c-8f9d-66e6f6583e2f
cris.virtualsource.departmente12a3319-369a-4ca3-bd75-672751e4ca76
cris.virtualsource.orcidc521d28e-b279-4f2c-8f9d-66e6f6583e2f
cris.virtualsource.orcide12a3319-369a-4ca3-bd75-672751e4ca76
dc.contributor.authorKeukelier, Jonas
dc.contributor.authorVan Dyck, Seppe
dc.contributor.authorDevulder, Wouter
dc.contributor.authorOpsomer, Karl
dc.contributor.authorDetavernier, Christophe
dc.contributor.orcidext0000-0001-9824-414X
dc.contributor.orcidext0000-0002-8302-5873
dc.contributor.orcidext0000-0002-5156-0177
dc.date.accessioned2026-07-16T09:04:42Z
dc.date.available2026-07-16T09:04:42Z
dc.date.createdwos2025
dc.date.issued2025
dc.description.abstractThe highly non-linear current–voltage characteristics of Ovonic threshold switching selectors make them a key component in novel 3D crossbar memory architectures. The sub-threshold conduction and switching mechanism have long been a point of debate but it is generally accepted that they are trap-assisted in nature. In this paper, we study the sub-threshold conduction of both pristine and switched amorphous GeSe and GeSe2 devices across a wide temperature range spanning from up to 353 K down to 133 K. By applying a simple Poole–Frenkel model, insight can be gained into the average trap depth and concentration and how these are affected by temperature, composition, and layer thickness. It is found that the average trap depth is temperature dependent, suggesting a distribution of traps in the mobility gap with only very shallow traps contributing to the current at low temperatures. GeSe layers tend to have a significantly larger amount of traps than the GeSe2 layers, in line with the hypothesis that wrongly coordinated Ge bonds are the dominant source of trap states. For thinner films, there are larger deviations from the simple Poole–Frenkel model for conduction, indicating an increasingly important effect of the interface barriers as the layer thickness decreases. After first-fire switching, the sub-threshold conduction changes drastically. The simple Poole–Frenkel model can still be applied, but quantitative information on the number of traps can no longer be reliably obtained.
dc.description.wosFundingTextThis research was made possible with the financial support of the BOF-UGent GOA-01G01019 project. Some of the materials required for the fabrication of test samples were provided by the Interuniversity Micro Electronics Center (IMEC). The authors would like to thank Stefanie Sergeant and Thomas Nuytten for their support with the Raman analysis.
dc.identifier.doi10.1063/5.0279599
dc.identifier.eissn1089-7550
dc.identifier.issn0021-8979
dc.identifier.issn1089-7550
dc.identifier.urihttps://imec-publications.be/handle/20.500.12860/59868
dc.language.isoeng
dc.provenance.editstepusergreet.vanhoof@imec.be
dc.publisherAIP Publishing
dc.source.beginpage135101
dc.source.issue13
dc.source.journalJOURNAL OF APPLIED PHYSICS
dc.source.numberofpages14
dc.source.volume138
dc.subject.keywordsPOOLE-FRENKEL
dc.subject.keywordsCHALCOGENIDE
dc.subject.keywordsRAMAN
dc.subject.keywordsMECHANISMS
dc.subject.keywordsELECTRODE
dc.subject.keywordsPHASE
dc.subject.keywordsBOND
dc.title

Study of the temperature dependent trap-dominated conduction in GeSe and GeSe2 Ovonic threshold switching selectors

dc.typeJournal article
dspace.entity.typePublication
imec.internal.crawledAt2025-10-22
imec.internal.sourcecrawler
imec.internal.wosCreatedAt2026-07-14
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