SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2029593008> ?p ?o ?g. }

Showing items 1 to 100 of ±150 with 100 items per page.

W2029593008 endingPage "14" @default.
W2029593008 startingPage "8" @default.
W2029593008 abstract "A brief review of the field of underpotential deposition (UPD) processes in the theory/modeling perspective is given, and new insights into the UPD of copper and silver on Rh(1 1 1) and Rh(1 0 0) in perchloric and sulfuric acid media are reported. Voltammetric results show a clear dependence of the UPD shift on Rh substrate geometry and on the type of the electrolyte used. For copper, we identified one peak on Rh(1 0 0) and two peaks on Rh(1 1 1), separated by 210 and 350 mV in perchloric and sulfuric electrolytes, respectively. Preliminary XPS experiments were performed to investigate some specific aspects of copper deposition processes. Overall, we report a strong effect of the anion adsorption on positions of Cu UPD peaks, with the effect being more noticeable on Rh(1 1 1) than on Rh(1 0 0). In the experiments with silver on Rh(1 1 1), multiple peaks were obtained, whereas no Ag UPD peak was found either on Rh(1 0 0) or on polycrystalline Rh. In addition, we found that the Ag UPD process on Rh(1 1 1) is dependent on silver concentration. As indicated in the paper Tables, except for Cu UPD on Rh(1 0 0), there is a major deviation from the linear relationship between the UPD shift and the difference between the work function of the substrate and that for the underpotentially deposited adatoms." @default.
W2029593008 created "2016-06-24" @default.
W2029593008 creator A5073577988 @default.
W2029593008 creator A5075609222 @default.
W2029593008 creator A5089961383 @default.
W2029593008 date "2010-02-01" @default.
W2029593008 modified "2023-10-18" @default.
W2029593008 title "Underpotential deposition of copper and silver on single crystal surfaces of rhodium" @default.
W2029593008 cites W1562540719 @default.
W2029593008 cites W1643606494 @default.
W2029593008 cites W196367672 @default.
W2029593008 cites W1963962385 @default.
W2029593008 cites W1964657519 @default.
W2029593008 cites W1964713741 @default.
W2029593008 cites W1967699664 @default.
W2029593008 cites W1972105628 @default.
W2029593008 cites W1974000700 @default.
W2029593008 cites W1974577042 @default.
W2029593008 cites W1976100626 @default.
W2029593008 cites W1980402307 @default.
W2029593008 cites W1987740082 @default.
W2029593008 cites W1990316267 @default.
W2029593008 cites W1991110593 @default.
W2029593008 cites W1992133092 @default.
W2029593008 cites W1995749239 @default.
W2029593008 cites W1997626427 @default.
W2029593008 cites W1999623441 @default.
W2029593008 cites W2003994367 @default.
W2029593008 cites W2010971287 @default.
W2029593008 cites W2013889988 @default.
W2029593008 cites W2017571960 @default.
W2029593008 cites W2017871268 @default.
W2029593008 cites W2019435945 @default.
W2029593008 cites W2020620537 @default.
W2029593008 cites W2023125014 @default.
W2029593008 cites W2023223897 @default.
W2029593008 cites W2027901926 @default.
W2029593008 cites W2028512723 @default.
W2029593008 cites W2031717435 @default.
W2029593008 cites W2038236148 @default.
W2029593008 cites W2038254172 @default.
W2029593008 cites W2038985195 @default.
W2029593008 cites W2040626604 @default.
W2029593008 cites W2043695984 @default.
W2029593008 cites W2046462763 @default.
W2029593008 cites W2047517562 @default.
W2029593008 cites W2047657267 @default.
W2029593008 cites W2051206492 @default.
W2029593008 cites W2052258836 @default.
W2029593008 cites W2056789022 @default.
W2029593008 cites W2067706372 @default.
W2029593008 cites W2069462737 @default.
W2029593008 cites W2071189616 @default.
W2029593008 cites W2076045927 @default.
W2029593008 cites W2079541156 @default.
W2029593008 cites W2081422493 @default.
W2029593008 cites W2081680958 @default.
W2029593008 cites W2083579575 @default.
W2029593008 cites W2088013395 @default.
W2029593008 cites W2090107438 @default.
W2029593008 cites W2091573585 @default.
W2029593008 cites W2092081430 @default.
W2029593008 cites W2093182648 @default.
W2029593008 cites W2093542429 @default.
W2029593008 cites W2093984693 @default.
W2029593008 cites W2109054366 @default.
W2029593008 cites W2134112215 @default.
W2029593008 cites W2136091049 @default.
W2029593008 cites W2158317247 @default.
W2029593008 cites W2166525830 @default.
W2029593008 cites W2170307178 @default.
W2029593008 cites W2171905977 @default.
W2029593008 cites W2951348864 @default.
W2029593008 cites W3100189212 @default.
W2029593008 cites W2012441112 @default.
W2029593008 doi "https://doi.org/10.1016/j.jelechem.2009.10.003" @default.
W2029593008 hasPublicationYear "2010" @default.
W2029593008 type Work @default.
W2029593008 sameAs 2029593008 @default.
W2029593008 citedByCount "7" @default.
W2029593008 countsByYear W20295930082012 @default.
W2029593008 countsByYear W20295930082013 @default.
W2029593008 countsByYear W20295930082014 @default.
W2029593008 countsByYear W20295930082015 @default.
W2029593008 countsByYear W20295930082017 @default.
W2029593008 crossrefType "journal-article" @default.
W2029593008 hasAuthorship W2029593008A5073577988 @default.
W2029593008 hasAuthorship W2029593008A5075609222 @default.
W2029593008 hasAuthorship W2029593008A5089961383 @default.
W2029593008 hasConcept C106773901 @default.
W2029593008 hasConcept C147789679 @default.
W2029593008 hasConcept C151730666 @default.
W2029593008 hasConcept C161790260 @default.
W2029593008 hasConcept C17525397 @default.
W2029593008 hasConcept C178790620 @default.
W2029593008 hasConcept C179104552 @default.
W2029593008 hasConcept C185592680 @default.
W2029593008 hasConcept C191897082 @default.