SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2766147485> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W2766147485 abstract "Based on a mass-energy analysis, Nb, NbO, NbO2, NbO3, O, O2, and O3 film forming-species occur in an Nb-O2-Ar sputtering plasma. H, H2, H2O, and OH also emerge due to high-vacuum conditions. Surface diffusion pathways for fast moving species (H, O, and OH) and adsorption energy are obtained by density functional theory. H rattles, O hops in a [110] direction, and OH moves in ⟨100⟩ channels on NbO(001), while surface diffusion on NbO2(001) is not species specific. There are strongly adsorbed species (Nb, O, O2, and O3) and weakly adsorbed species (Nb-O clusters and H containing molecules). H2O, O2, and O3 dissociate, while Nb-O clusters and OH undergo nondissociative adsorption and H2 is repelled. H incorporation is thus enabled via H and OH adsorption. Nb and O seem to promote an epitaxial growth of NbO, but not of NbO2. An NbO cluster on NbO(001) and an NbO2 cluster on NbO2(001) may sustain epitaxial growth. All other Nb-O clusters lead to a growth disruption or a nanostructure formation. In general, NbO can likely grow in a defect-free fashion, while this is not the case for NbO2 under kinetically limited growth conditions." @default.
W2766147485 created "2017-11-10" @default.
W2766147485 creator A5009516679 @default.
W2766147485 creator A5059417641 @default.
W2766147485 creator A5065034554 @default.
W2766147485 date "2017-10-26" @default.
W2766147485 modified "2023-09-27" @default.
W2766147485 title "Adsorption of film-forming species on NbO and NbO2 surfaces" @default.
W2766147485 cites W1650728208 @default.
W2766147485 cites W1898190359 @default.
W2766147485 cites W1928247562 @default.
W2766147485 cites W1953609107 @default.
W2766147485 cites W1958314909 @default.
W2766147485 cites W1964412080 @default.
W2766147485 cites W1966396052 @default.
W2766147485 cites W1979781306 @default.
W2766147485 cites W1981368803 @default.
W2766147485 cites W1982816310 @default.
W2766147485 cites W1984090306 @default.
W2766147485 cites W1987060746 @default.
W2766147485 cites W1987326471 @default.
W2766147485 cites W1988730729 @default.
W2766147485 cites W1997556325 @default.
W2766147485 cites W1997982640 @default.
W2766147485 cites W2001065550 @default.
W2766147485 cites W2004193023 @default.
W2766147485 cites W2005405711 @default.
W2766147485 cites W2005835697 @default.
W2766147485 cites W2008744161 @default.
W2766147485 cites W2011441413 @default.
W2766147485 cites W2014229632 @default.
W2766147485 cites W2019162591 @default.
W2766147485 cites W2020627429 @default.
W2766147485 cites W2028401917 @default.
W2766147485 cites W2030976617 @default.
W2766147485 cites W2034717998 @default.
W2766147485 cites W2036293032 @default.
W2766147485 cites W2040246085 @default.
W2766147485 cites W2042042944 @default.
W2766147485 cites W2043805065 @default.
W2766147485 cites W2045010985 @default.
W2766147485 cites W2047337309 @default.
W2766147485 cites W2051862059 @default.
W2766147485 cites W2052754645 @default.
W2766147485 cites W2068366203 @default.
W2766147485 cites W2069437325 @default.
W2766147485 cites W2070623790 @default.
W2766147485 cites W2073122840 @default.
W2766147485 cites W2075434939 @default.
W2766147485 cites W2075722275 @default.
W2766147485 cites W2077301752 @default.
W2766147485 cites W2078571947 @default.
W2766147485 cites W2080182142 @default.
W2766147485 cites W2087894124 @default.
W2766147485 cites W2088481786 @default.
W2766147485 cites W2102561595 @default.
W2766147485 cites W2111528977 @default.
W2766147485 cites W2113596303 @default.
W2766147485 cites W2154687598 @default.
W2766147485 cites W2167190902 @default.
W2766147485 cites W2255801995 @default.
W2766147485 cites W2326488030 @default.
W2766147485 cites W2332942532 @default.
W2766147485 cites W2523883252 @default.
W2766147485 cites W2597048063 @default.
W2766147485 cites W777922126 @default.
W2766147485 doi "https://doi.org/10.1116/1.4995492" @default.
W2766147485 hasPublicationYear "2017" @default.
W2766147485 type Work @default.
W2766147485 sameAs 2766147485 @default.
W2766147485 citedByCount "4" @default.
W2766147485 countsByYear W27661474852019 @default.
W2766147485 countsByYear W27661474852020 @default.
W2766147485 countsByYear W27661474852021 @default.
W2766147485 crossrefType "journal-article" @default.
W2766147485 hasAuthorship W2766147485A5009516679 @default.
W2766147485 hasAuthorship W2766147485A5059417641 @default.
W2766147485 hasAuthorship W2766147485A5065034554 @default.
W2766147485 hasConcept C121332964 @default.
W2766147485 hasConcept C130188946 @default.
W2766147485 hasConcept C147597530 @default.
W2766147485 hasConcept C147789679 @default.
W2766147485 hasConcept C150394285 @default.
W2766147485 hasConcept C152365726 @default.
W2766147485 hasConcept C159467904 @default.
W2766147485 hasConcept C164866538 @default.
W2766147485 hasConcept C171250308 @default.
W2766147485 hasConcept C178790620 @default.
W2766147485 hasConcept C185592680 @default.
W2766147485 hasConcept C186187911 @default.
W2766147485 hasConcept C192562407 @default.
W2766147485 hasConcept C199360897 @default.
W2766147485 hasConcept C2778402822 @default.
W2766147485 hasConcept C32909587 @default.
W2766147485 hasConcept C41008148 @default.
W2766147485 hasConcept C69357855 @default.
W2766147485 hasConcept C8010536 @default.
W2766147485 hasConcept C97355855 @default.
W2766147485 hasConceptScore W2766147485C121332964 @default.
W2766147485 hasConceptScore W2766147485C130188946 @default.