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2025-02-23T06:42:54-05:00 DEBUG: VuFindSearch\Backend\Solr\Connector: => GET http://localhost:8983/solr/biblio/select?fl=%2A&wt=json&json.nl=arrarr&q=id%3A%22ujp2-article-108%22&qt=morelikethis&rows=5
2025-02-23T06:42:54-05:00 DEBUG: VuFindSearch\Backend\Solr\Connector: <= 200 OK
2025-02-23T06:42:54-05:00 DEBUG: Deserialized SOLR response
Вплив доменної структури сегнетоелектричної підкладки на провідність графену (авторський огляд)

Вплив доменної структури сегнетоелектричної підкладки на провідність графену (авторський огляд)

Review is devoted to the recent theoretical studies of the impact of domain structure of ferroelectric substrate on graphene conductance. An analytical description of the hysteresis memory effect in a field effect transistor based on graphene-on-ferroelectric, taking into account absorbed dipole lay...

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Bibliographic Details
Main Authors: Strikha, M. V., Kurchak, A. I., Morozovska, A. N.
Format: Article
Language:English
Published: Publishing house "Academperiodika" 2018
Subjects:
графен-на-сегнетоелектрику
доменна структура
провідність
польовий транзистор
graphene-on-ferroelectric
domain structure
conductance
field effect transistor
Online Access:https://ujp.bitp.kiev.ua/index.php/ujp/article/view/108
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Summary:Review is devoted to the recent theoretical studies of the impact of domain structure of ferroelectric substrate on graphene conductance. An analytical description of the hysteresis memory effect in a field effect transistor based on graphene-on-ferroelectric, taking into account absorbed dipole layers on the free surface of graphene and localized states on its interfaces is considered. The aspects of the recently developed theory of p-n junctions conductivity in a graphene channel on a ferroelectric substrate, which are created by a 180-degree ferroelectric domain structure, are analyzed, and cases of different current regimes from ballistic to diffusion one are considered. The influence of size effects in such systems and the possibility of using the results for improving the characteristics of field effect transistors with a graphene channel, non-volatile ferroelectric memory cells with random access, sensors, as well as for miniaturization of various devices of functional nanoelectronics are discussed.

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