SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2002474883> ?p ?o ?g. }

Showing items 1 to 100 of ±144 with 100 items per page.

W2002474883 endingPage "43" @default.
W2002474883 startingPage "32" @default.
W2002474883 abstract "A systematic comparison of the electrochemical reduction of nitrite at polycrystalline metals has been carried out. In acidic media, solution-phase NO from HNO2 decomposition is converted to N2O by all noble metals in a common potential range for most metals (0.2–0.5 V vs. RHE). Transition metals can also convert HNO2 directly to hydrogenated products (NH3OH+, NH4+) at lower potentials, while coinage metals (Ag, Au, Cu) feature a stepwise reduction to NO and N2O, which can be both detected by on-line mass spectrometry. The reduction of nitrite ions in alkaline media never yields gaseous products; the first electron transfer to give adsorbed NO is the rate-determining step for all noble metals. Coinage metals are largely inactive, except for Cu. The selectivity and electrocatalytic trends have been interpreted on the basis of DFT calculations of the metal–NO interaction available in the literature. In agreement with the Sabatier principle, metals with an intermediate affinity to NO are the most reactive and show the lowest tendency to poisoning. Coinage metals are a special case because of their weak NO adsorption and the formation of NO dimers." @default.
W2002474883 created "2016-06-24" @default.
W2002474883 creator A5007518881 @default.
W2002474883 creator A5028485156 @default.
W2002474883 creator A5058965290 @default.
W2002474883 date "2012-04-01" @default.
W2002474883 modified "2023-10-12" @default.
W2002474883 title "Electrocatalytic reduction of nitrite on transition and coinage metals" @default.
W2002474883 cites W133446630 @default.
W2002474883 cites W1489429346 @default.
W2002474883 cites W1554776990 @default.
W2002474883 cites W1965007179 @default.
W2002474883 cites W1965516336 @default.
W2002474883 cites W1965841478 @default.
W2002474883 cites W1968924882 @default.
W2002474883 cites W1972343319 @default.
W2002474883 cites W1972962200 @default.
W2002474883 cites W1973796944 @default.
W2002474883 cites W1974335916 @default.
W2002474883 cites W1975423150 @default.
W2002474883 cites W1979315685 @default.
W2002474883 cites W1982360987 @default.
W2002474883 cites W1983972305 @default.
W2002474883 cites W1987490818 @default.
W2002474883 cites W1994834089 @default.
W2002474883 cites W2000911922 @default.
W2002474883 cites W2002897145 @default.
W2002474883 cites W2006376491 @default.
W2002474883 cites W2008839594 @default.
W2002474883 cites W2009486354 @default.
W2002474883 cites W2011059626 @default.
W2002474883 cites W2015370552 @default.
W2002474883 cites W2018949305 @default.
W2002474883 cites W2023839126 @default.
W2002474883 cites W2034528395 @default.
W2002474883 cites W2036338458 @default.
W2002474883 cites W2037621081 @default.
W2002474883 cites W2039124186 @default.
W2002474883 cites W2039997533 @default.
W2002474883 cites W2041847816 @default.
W2002474883 cites W2043195287 @default.
W2002474883 cites W2044489221 @default.
W2002474883 cites W2047663381 @default.
W2002474883 cites W2048842272 @default.
W2002474883 cites W2049952231 @default.
W2002474883 cites W2051417812 @default.
W2002474883 cites W2051746039 @default.
W2002474883 cites W2052423733 @default.
W2002474883 cites W2056726153 @default.
W2002474883 cites W2057650294 @default.
W2002474883 cites W2065550256 @default.
W2002474883 cites W2069118064 @default.
W2002474883 cites W2071839323 @default.
W2002474883 cites W2072155013 @default.
W2002474883 cites W2089194843 @default.
W2002474883 cites W2089325542 @default.
W2002474883 cites W2090285333 @default.
W2002474883 cites W2090704499 @default.
W2002474883 cites W2090940236 @default.
W2002474883 cites W2111661209 @default.
W2002474883 cites W2119814844 @default.
W2002474883 cites W2120234714 @default.
W2002474883 cites W2142356892 @default.
W2002474883 cites W2146323422 @default.
W2002474883 cites W2148172920 @default.
W2002474883 cites W2149269206 @default.
W2002474883 cites W2151201269 @default.
W2002474883 cites W2315205495 @default.
W2002474883 cites W2324412451 @default.
W2002474883 cites W2908916379 @default.
W2002474883 cites W4243664219 @default.
W2002474883 doi "https://doi.org/10.1016/j.electacta.2012.02.037" @default.
W2002474883 hasPublicationYear "2012" @default.
W2002474883 type Work @default.
W2002474883 sameAs 2002474883 @default.
W2002474883 citedByCount "53" @default.
W2002474883 countsByYear W20024748832012 @default.
W2002474883 countsByYear W20024748832013 @default.
W2002474883 countsByYear W20024748832014 @default.
W2002474883 countsByYear W20024748832015 @default.
W2002474883 countsByYear W20024748832016 @default.
W2002474883 countsByYear W20024748832017 @default.
W2002474883 countsByYear W20024748832018 @default.
W2002474883 countsByYear W20024748832019 @default.
W2002474883 countsByYear W20024748832020 @default.
W2002474883 countsByYear W20024748832021 @default.
W2002474883 countsByYear W20024748832022 @default.
W2002474883 countsByYear W20024748832023 @default.
W2002474883 crossrefType "journal-article" @default.
W2002474883 hasAuthorship W2002474883A5007518881 @default.
W2002474883 hasAuthorship W2002474883A5028485156 @default.
W2002474883 hasAuthorship W2002474883A5058965290 @default.
W2002474883 hasConcept C106773901 @default.
W2002474883 hasConcept C118792377 @default.
W2002474883 hasConcept C123669783 @default.
W2002474883 hasConcept C147789679 @default.
W2002474883 hasConcept C150394285 @default.
W2002474883 hasConcept C161790260 @default.