SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2148745926> ?p ?o ?g. }

Showing items 1 to 100 of ±130 with 100 items per page.

W2148745926 endingPage "56" @default.
W2148745926 startingPage "49" @default.
W2148745926 abstract "We studied the structure of bimetallic clusters with 55 atoms having the basic geometry of a Mackay icosahedron. The energy of the clusters is calculated as a sum of pairwise Morse functions, which is a purely covalent term, plus the electrostatic energy of screened atomic charges obtained through the electronegativity equalization (EE) method. The parameters De, Re, and ae of the Morse functions vary according to the atoms' coordination and interpolate smoothly between the known (experimental) diatomic and bulk limits. The EE parameters are fitted to density functional theory ionization energies of small model clusters. The energy of the clusters AnB(55−n) (x=13 and 27, and A,B=Cu,Ag, and Au) was minimized with respect to site occupancy by atoms of each type by combined simulated annealing and conjugate gradient optimization. The lowest energy structures are characterized by: (i) segregation of the metal with lowest surface energy to the surface of the cluster; (ii) occupancy of the atom-capping surface sites (sites with a coordination of 6) by the lowest cohesive energy metal; (iii) a tendency toward AB ordering, to maximize ionic interactions, at the surface of AuAg and AuCu clusters; (iv) a compromise between mixing and surface segregation in some of the CuAu and AuAg clusters." @default.
W2148745926 created "2016-06-24" @default.
W2148745926 creator A5051922432 @default.
W2148745926 creator A5053204257 @default.
W2148745926 date "2006-04-01" @default.
W2148745926 modified "2023-09-23" @default.
W2148745926 title "Structure of 55-atom bimetallic clusters" @default.
W2148745926 cites W1512682641 @default.
W2148745926 cites W1532058519 @default.
W2148745926 cites W1641555178 @default.
W2148745926 cites W1964791157 @default.
W2148745926 cites W1968071048 @default.
W2148745926 cites W1974058141 @default.
W2148745926 cites W1979773092 @default.
W2148745926 cites W1980776638 @default.
W2148745926 cites W1985190780 @default.
W2148745926 cites W1988343142 @default.
W2148745926 cites W2003301106 @default.
W2148745926 cites W2007338758 @default.
W2148745926 cites W2009153639 @default.
W2148745926 cites W2016355541 @default.
W2148745926 cites W2021542641 @default.
W2148745926 cites W2024395439 @default.
W2148745926 cites W2024864429 @default.
W2148745926 cites W2030009329 @default.
W2148745926 cites W2030929351 @default.
W2148745926 cites W2033681589 @default.
W2148745926 cites W2033984628 @default.
W2148745926 cites W2038516268 @default.
W2148745926 cites W2045405641 @default.
W2148745926 cites W2046176366 @default.
W2148745926 cites W2046269964 @default.
W2148745926 cites W2047933412 @default.
W2148745926 cites W2048599061 @default.
W2148745926 cites W2049939696 @default.
W2148745926 cites W2058197865 @default.
W2148745926 cites W2058314167 @default.
W2148745926 cites W2059919162 @default.
W2148745926 cites W2064007719 @default.
W2148745926 cites W2068068419 @default.
W2148745926 cites W2071339225 @default.
W2148745926 cites W2073678344 @default.
W2148745926 cites W2076225638 @default.
W2148745926 cites W2077487292 @default.
W2148745926 cites W2080386283 @default.
W2148745926 cites W2088036697 @default.
W2148745926 cites W2091543987 @default.
W2148745926 cites W2091888200 @default.
W2148745926 cites W2091915485 @default.
W2148745926 cites W2093016250 @default.
W2148745926 cites W2093813726 @default.
W2148745926 cites W2099543098 @default.
W2148745926 cites W2157038668 @default.
W2148745926 cites W2170006871 @default.
W2148745926 cites W2951391747 @default.
W2148745926 doi "https://doi.org/10.1016/j.theochem.2005.08.042" @default.
W2148745926 hasPublicationYear "2006" @default.
W2148745926 type Work @default.
W2148745926 sameAs 2148745926 @default.
W2148745926 citedByCount "48" @default.
W2148745926 countsByYear W21487459262012 @default.
W2148745926 countsByYear W21487459262013 @default.
W2148745926 countsByYear W21487459262014 @default.
W2148745926 countsByYear W21487459262015 @default.
W2148745926 countsByYear W21487459262016 @default.
W2148745926 countsByYear W21487459262017 @default.
W2148745926 countsByYear W21487459262018 @default.
W2148745926 countsByYear W21487459262019 @default.
W2148745926 countsByYear W21487459262020 @default.
W2148745926 countsByYear W21487459262021 @default.
W2148745926 countsByYear W21487459262022 @default.
W2148745926 countsByYear W21487459262023 @default.
W2148745926 crossrefType "journal-article" @default.
W2148745926 hasAuthorship W2148745926A5051922432 @default.
W2148745926 hasAuthorship W2148745926A5053204257 @default.
W2148745926 hasConcept C121332964 @default.
W2148745926 hasConcept C145148216 @default.
W2148745926 hasConcept C149635348 @default.
W2148745926 hasConcept C159467904 @default.
W2148745926 hasConcept C164866538 @default.
W2148745926 hasConcept C177293861 @default.
W2148745926 hasConcept C178790620 @default.
W2148745926 hasConcept C184779094 @default.
W2148745926 hasConcept C185592680 @default.
W2148745926 hasConcept C199360897 @default.
W2148745926 hasConcept C2182769 @default.
W2148745926 hasConcept C41008148 @default.
W2148745926 hasConcept C41999313 @default.
W2148745926 hasConcept C43411465 @default.
W2148745926 hasConcept C544153396 @default.
W2148745926 hasConcept C58312451 @default.
W2148745926 hasConcept C8010536 @default.
W2148745926 hasConceptScore W2148745926C121332964 @default.
W2148745926 hasConceptScore W2148745926C145148216 @default.
W2148745926 hasConceptScore W2148745926C149635348 @default.
W2148745926 hasConceptScore W2148745926C159467904 @default.
W2148745926 hasConceptScore W2148745926C164866538 @default.
W2148745926 hasConceptScore W2148745926C177293861 @default.