SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2788897111> ?p ?o ?g. }

Showing items 1 to 100 of ±158 with 100 items per page.

W2788897111 abstract "We realize a two-dimensional electron system (2DES) in ZnO by simply depositing pure aluminum on its surface in ultra-high vacuum, and characterize its electronic structure using angle-resolved photoemission spectroscopy. The aluminum oxidizes into alumina by creating oxygen vacancies that dope the bulk conduction band of ZnO and confine the electrons near its surface. The electron density of the 2DES is up to two orders of magnitude higher than those obtained in ZnO heterostructures. The 2DES shows two $s$-type subbands, that we compare to the $d$-like 2DESs in titanates, with clear signatures of many-body interactions that we analyze through a self-consistent extraction of the system self-energy and a modeling as a coupling of a 2D Fermi liquid with a Debye distribution of phonons." @default.
W2788897111 created "2018-03-06" @default.
W2788897111 creator A5000548358 @default.
W2788897111 creator A5021998345 @default.
W2788897111 creator A5026910747 @default.
W2788897111 creator A5027757854 @default.
W2788897111 creator A5031494839 @default.
W2788897111 creator A5036588860 @default.
W2788897111 creator A5040470145 @default.
W2788897111 creator A5043637503 @default.
W2788897111 creator A5046679322 @default.
W2788897111 creator A5064231847 @default.
W2788897111 creator A5068404573 @default.
W2788897111 creator A5077018035 @default.
W2788897111 creator A5087787221 @default.
W2788897111 date "2018-05-14" @default.
W2788897111 modified "2023-10-16" @default.
W2788897111 title "High-density two-dimensional electron system induced by oxygen vacancies in ZnO" @default.
W2788897111 cites W1507898822 @default.
W2788897111 cites W1559734512 @default.
W2788897111 cites W1630879459 @default.
W2788897111 cites W1658890454 @default.
W2788897111 cites W1754948048 @default.
W2788897111 cites W1883332563 @default.
W2788897111 cites W1934393473 @default.
W2788897111 cites W1936129022 @default.
W2788897111 cites W1966189370 @default.
W2788897111 cites W1967652077 @default.
W2788897111 cites W1968191594 @default.
W2788897111 cites W1981717393 @default.
W2788897111 cites W1986717666 @default.
W2788897111 cites W1995433120 @default.
W2788897111 cites W2001502279 @default.
W2788897111 cites W2006956109 @default.
W2788897111 cites W2007759696 @default.
W2788897111 cites W2010732587 @default.
W2788897111 cites W2011429852 @default.
W2788897111 cites W2020871268 @default.
W2788897111 cites W2023085475 @default.
W2788897111 cites W2029016034 @default.
W2788897111 cites W2040890931 @default.
W2788897111 cites W2045377847 @default.
W2788897111 cites W2046878871 @default.
W2788897111 cites W2054552883 @default.
W2788897111 cites W2054580701 @default.
W2788897111 cites W2067445032 @default.
W2788897111 cites W2077565069 @default.
W2788897111 cites W2080436563 @default.
W2788897111 cites W2081298453 @default.
W2788897111 cites W2083046786 @default.
W2788897111 cites W2085164934 @default.
W2788897111 cites W2092904442 @default.
W2788897111 cites W2095155625 @default.
W2788897111 cites W2111826330 @default.
W2788897111 cites W2117581782 @default.
W2788897111 cites W2119579066 @default.
W2788897111 cites W2126720792 @default.
W2788897111 cites W2132673045 @default.
W2788897111 cites W2151425752 @default.
W2788897111 cites W2164194853 @default.
W2788897111 cites W216796551 @default.
W2788897111 cites W2190412569 @default.
W2788897111 cites W2233086445 @default.
W2788897111 cites W2282707683 @default.
W2788897111 cites W2310390902 @default.
W2788897111 cites W2339507713 @default.
W2788897111 cites W2397427572 @default.
W2788897111 cites W2414175378 @default.
W2788897111 cites W2415520354 @default.
W2788897111 cites W2528511242 @default.
W2788897111 cites W2530488724 @default.
W2788897111 cites W2613473819 @default.
W2788897111 cites W2618927294 @default.
W2788897111 cites W3098906430 @default.
W2788897111 cites W3211924657 @default.
W2788897111 cites W35211403 @default.
W2788897111 cites W4244110490 @default.
W2788897111 cites W625617212 @default.
W2788897111 doi "https://doi.org/10.1103/physrevmaterials.2.051601" @default.
W2788897111 hasPublicationYear "2018" @default.
W2788897111 type Work @default.
W2788897111 sameAs 2788897111 @default.
W2788897111 citedByCount "13" @default.
W2788897111 countsByYear W27888971112019 @default.
W2788897111 countsByYear W27888971112020 @default.
W2788897111 countsByYear W27888971112021 @default.
W2788897111 countsByYear W27888971112022 @default.
W2788897111 crossrefType "journal-article" @default.
W2788897111 hasAuthorship W2788897111A5000548358 @default.
W2788897111 hasAuthorship W2788897111A5021998345 @default.
W2788897111 hasAuthorship W2788897111A5026910747 @default.
W2788897111 hasAuthorship W2788897111A5027757854 @default.
W2788897111 hasAuthorship W2788897111A5031494839 @default.
W2788897111 hasAuthorship W2788897111A5036588860 @default.
W2788897111 hasAuthorship W2788897111A5040470145 @default.
W2788897111 hasAuthorship W2788897111A5043637503 @default.
W2788897111 hasAuthorship W2788897111A5046679322 @default.
W2788897111 hasAuthorship W2788897111A5064231847 @default.
W2788897111 hasAuthorship W2788897111A5068404573 @default.
W2788897111 hasAuthorship W2788897111A5077018035 @default.