SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2051228301> ?p ?o ?g. }

Showing items 1 to 100 of ±176 with 100 items per page.

W2051228301 endingPage "6498" @default.
W2051228301 startingPage "6489" @default.
W2051228301 abstract "Partial oxidation of alcohols is a topic of great interest in the field of gold catalysis. In this work, we provide evidence that the partial oxidation of allyl alcohol to its corresponding aldehyde, acrolein, over oxygen-precovered gold surfaces occurs via multiple reaction pathways. Utilizing temperature-programmed desorption (TPD) with isotopically labeled water and oxygen species, reactive molecular beam scattering, and density functional theory (DFT) calculations, we demonstrate that the reaction mechanism for allyl alcohol oxidation is influenced by the relative proportions of atomic oxygen and hydroxyl species on the gold surface. Both atomic oxygen and hydroxyl species are shown to be active for allyl alcohol oxidation, but each displays a different pathway of oxidation, as indicated by TPD measurements and DFT calculations. The hydroxyl hydrogen of allyl alcohol is readily abstracted by either oxygen adatoms or adsorbed hydroxyl species on the gold surface to generate a surface-bound allyloxide intermediate, which then undergoes α-dehydrogenation via interaction with an oxygen adatom or surface hydroxyl species to generate acrolein. Mediation of a second allyloxide with the hydroxyl species lowers the activation barrier for the α-dehydrogenation process. A third pathway exists in which two hydroxyl species recombine to generate water and an oxygen adatom, which subsequently dehydrogenates allyloxide. This work may aid in the understanding of oxidative catalysis over gold and the effect of water therein." @default.
W2051228301 created "2016-06-24" @default.
W2051228301 creator A5011667239 @default.
W2051228301 creator A5025773082 @default.
W2051228301 creator A5037254724 @default.
W2051228301 creator A5039544100 @default.
W2051228301 creator A5047676104 @default.
W2051228301 creator A5077813936 @default.
W2051228301 date "2014-04-16" @default.
W2051228301 modified "2023-09-24" @default.
W2051228301 title "Oxygen and Hydroxyl Species Induce Multiple Reaction Pathways for the Partial Oxidation of Allyl Alcohol on Gold" @default.
W2051228301 cites W1963757470 @default.
W2051228301 cites W1964015474 @default.
W2051228301 cites W1965921484 @default.
W2051228301 cites W1968882562 @default.
W2051228301 cites W1970127494 @default.
W2051228301 cites W1974207466 @default.
W2051228301 cites W1976274215 @default.
W2051228301 cites W1976302711 @default.
W2051228301 cites W1976784016 @default.
W2051228301 cites W1977307402 @default.
W2051228301 cites W1977829043 @default.
W2051228301 cites W1979764877 @default.
W2051228301 cites W1979910448 @default.
W2051228301 cites W1981368803 @default.
W2051228301 cites W1985886708 @default.
W2051228301 cites W1985973099 @default.
W2051228301 cites W1987036699 @default.
W2051228301 cites W1990777513 @default.
W2051228301 cites W1996664695 @default.
W2051228301 cites W2000536749 @default.
W2051228301 cites W2001252917 @default.
W2051228301 cites W2005355202 @default.
W2051228301 cites W2007395042 @default.
W2051228301 cites W2008370222 @default.
W2051228301 cites W2011659343 @default.
W2051228301 cites W2013004437 @default.
W2051228301 cites W2013303671 @default.
W2051228301 cites W2014605834 @default.
W2051228301 cites W2015085546 @default.
W2051228301 cites W2015836631 @default.
W2051228301 cites W2016632908 @default.
W2051228301 cites W2016958440 @default.
W2051228301 cites W2018692013 @default.
W2051228301 cites W2020685490 @default.
W2051228301 cites W2024355474 @default.
W2051228301 cites W2025592212 @default.
W2051228301 cites W2029842534 @default.
W2051228301 cites W2030976617 @default.
W2051228301 cites W2031430816 @default.
W2051228301 cites W2035908554 @default.
W2051228301 cites W2036113194 @default.
W2051228301 cites W2040055325 @default.
W2051228301 cites W2043740651 @default.
W2051228301 cites W2057163137 @default.
W2051228301 cites W2058556009 @default.
W2051228301 cites W2065064772 @default.
W2051228301 cites W2066009011 @default.
W2051228301 cites W2066683734 @default.
W2051228301 cites W2066801532 @default.
W2051228301 cites W2067642063 @default.
W2051228301 cites W2068759861 @default.
W2051228301 cites W2069746119 @default.
W2051228301 cites W2072660089 @default.
W2051228301 cites W2077145498 @default.
W2051228301 cites W2079105963 @default.
W2051228301 cites W2080704607 @default.
W2051228301 cites W2081091283 @default.
W2051228301 cites W2081292041 @default.
W2051228301 cites W2083222334 @default.
W2051228301 cites W2084412273 @default.
W2051228301 cites W2085025305 @default.
W2051228301 cites W2087661696 @default.
W2051228301 cites W2087698390 @default.
W2051228301 cites W2096489745 @default.
W2051228301 cites W2104492867 @default.
W2051228301 cites W2121215104 @default.
W2051228301 cites W2122427541 @default.
W2051228301 cites W2129060440 @default.
W2051228301 cites W2130172222 @default.
W2051228301 cites W2135398244 @default.
W2051228301 cites W2138761745 @default.
W2051228301 cites W2150152993 @default.
W2051228301 cites W2153612272 @default.
W2051228301 cites W2153824414 @default.
W2051228301 cites W2158814908 @default.
W2051228301 cites W2161766848 @default.
W2051228301 cites W2171599642 @default.
W2051228301 cites W2230728100 @default.
W2051228301 cites W2319974373 @default.
W2051228301 cites W2326488244 @default.
W2051228301 cites W2328609802 @default.
W2051228301 cites W2331493598 @default.
W2051228301 cites W4211044815 @default.
W2051228301 cites W4211164327 @default.
W2051228301 doi "https://doi.org/10.1021/ja502347d" @default.
W2051228301 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24702503" @default.
W2051228301 hasPublicationYear "2014" @default.