SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4320179921> ?p ?o ?g. }

Showing items 1 to 100 of ±136 with 100 items per page.

W4320179921 endingPage "142032" @default.
W4320179921 startingPage "142032" @default.
W4320179921 abstract "Liquid fuels are considered a promising alternative to hydrogen in proton exchange membrane fuel cells. In particular, isopropanol, which can be selectively oxidised to acetone and further hydrogenated back to isopropanol using electrochemical and heterogeneous catalysis routes, respectively, opens the possibility of zero-emission fuel cell operation without complex management of molecular H2. However, the maximum electric power of such fuel cells is still relatively low, which is attributed to the poisoning of state-of-the-art Pt-Ru electrocatalysts by adsorbed acetone and/or Ru oxide/hydroxide. Here, in order to mitigate Pt-Ru poisoning at higher anodic potentials during isopropanol oxidation in acidic media, the effect of the addition of Ir, a less oxophilic element than Ru, on the activity and stability during dynamic experiments of Pt-Ru is systematically investigated. To identify the most active compositions, Pt-Ru-Ir thin-film material libraries are prepared using magnetron co-sputtering. The electrocatalytic activity of the libraries is screened using a high-throughput scanning flow cell setup. Catalysts with the highest activity are further synthesised in the form of carbon-supported nanoparticles. Comparing the two systems, similar trends are observed, highlighting the model material libraries being an excellent starting point for novel catalyst development. Besides electrocatalytic activity, catalyst shelf-life and dissolution stability are studied. While significant ageing in the air is found, partial reactivation is possible using a reductive treatment. The dissolution of the most promising nanoparticulate electrocatalyst is evaluated using online inductively coupled plasma mass spectrometry to assess the effect of Ir addition on Pt and Ru stability. No significant stabilising role of Ir, however, is observed. Hence, further optimisation of Pt-Ru or Pt-Ru-Ir is still needed to improve isopropanol fuel cell performance." @default.
W4320179921 created "2023-02-13" @default.
W4320179921 creator A5006021426 @default.
W4320179921 creator A5018906660 @default.
W4320179921 creator A5019937016 @default.
W4320179921 creator A5025117496 @default.
W4320179921 creator A5028984197 @default.
W4320179921 creator A5030090315 @default.
W4320179921 creator A5030931915 @default.
W4320179921 creator A5039409285 @default.
W4320179921 creator A5042207767 @default.
W4320179921 creator A5048192399 @default.
W4320179921 creator A5053735446 @default.
W4320179921 creator A5063123925 @default.
W4320179921 creator A5067198410 @default.
W4320179921 creator A5073666601 @default.
W4320179921 creator A5076759808 @default.
W4320179921 creator A5082432235 @default.
W4320179921 date "2023-03-01" @default.
W4320179921 modified "2023-10-16" @default.
W4320179921 title "Isopropanol electro-oxidation on Pt-Ru-Ir: A journey from model thin-film libraries towards real electrocatalysts" @default.
W4320179921 cites W136378602 @default.
W4320179921 cites W1541727885 @default.
W4320179921 cites W1967862276 @default.
W4320179921 cites W1971989931 @default.
W4320179921 cites W1988441808 @default.
W4320179921 cites W1992507882 @default.
W4320179921 cites W1993910218 @default.
W4320179921 cites W2011973451 @default.
W4320179921 cites W2015897285 @default.
W4320179921 cites W2023607206 @default.
W4320179921 cites W2055084190 @default.
W4320179921 cites W2055175754 @default.
W4320179921 cites W2060763919 @default.
W4320179921 cites W2061134934 @default.
W4320179921 cites W2061578682 @default.
W4320179921 cites W2062489183 @default.
W4320179921 cites W2068998961 @default.
W4320179921 cites W2071737172 @default.
W4320179921 cites W2079833473 @default.
W4320179921 cites W2081378761 @default.
W4320179921 cites W2084206095 @default.
W4320179921 cites W2091731732 @default.
W4320179921 cites W2106178493 @default.
W4320179921 cites W2110238792 @default.
W4320179921 cites W2138169853 @default.
W4320179921 cites W2145388151 @default.
W4320179921 cites W2158353478 @default.
W4320179921 cites W2163975598 @default.
W4320179921 cites W2315119451 @default.
W4320179921 cites W2337638042 @default.
W4320179921 cites W2344967718 @default.
W4320179921 cites W2768541247 @default.
W4320179921 cites W2889551181 @default.
W4320179921 cites W2946270574 @default.
W4320179921 cites W2951522974 @default.
W4320179921 cites W2998075292 @default.
W4320179921 cites W3003480311 @default.
W4320179921 cites W3006315418 @default.
W4320179921 cites W3040457889 @default.
W4320179921 cites W3081531736 @default.
W4320179921 cites W3133565240 @default.
W4320179921 cites W3155830309 @default.
W4320179921 cites W3183416153 @default.
W4320179921 cites W3186455010 @default.
W4320179921 cites W4312114871 @default.
W4320179921 cites W3166667980 @default.
W4320179921 doi "https://doi.org/10.1016/j.electacta.2023.142032" @default.
W4320179921 hasPublicationYear "2023" @default.
W4320179921 type Work @default.
W4320179921 citedByCount "0" @default.
W4320179921 crossrefType "journal-article" @default.
W4320179921 hasAuthorship W4320179921A5006021426 @default.
W4320179921 hasAuthorship W4320179921A5018906660 @default.
W4320179921 hasAuthorship W4320179921A5019937016 @default.
W4320179921 hasAuthorship W4320179921A5025117496 @default.
W4320179921 hasAuthorship W4320179921A5028984197 @default.
W4320179921 hasAuthorship W4320179921A5030090315 @default.
W4320179921 hasAuthorship W4320179921A5030931915 @default.
W4320179921 hasAuthorship W4320179921A5039409285 @default.
W4320179921 hasAuthorship W4320179921A5042207767 @default.
W4320179921 hasAuthorship W4320179921A5048192399 @default.
W4320179921 hasAuthorship W4320179921A5053735446 @default.
W4320179921 hasAuthorship W4320179921A5063123925 @default.
W4320179921 hasAuthorship W4320179921A5067198410 @default.
W4320179921 hasAuthorship W4320179921A5073666601 @default.
W4320179921 hasAuthorship W4320179921A5076759808 @default.
W4320179921 hasAuthorship W4320179921A5082432235 @default.
W4320179921 hasBestOaLocation W43201799211 @default.
W4320179921 hasConcept C127413603 @default.
W4320179921 hasConcept C132319479 @default.
W4320179921 hasConcept C147789679 @default.
W4320179921 hasConcept C161790260 @default.
W4320179921 hasConcept C17525397 @default.
W4320179921 hasConcept C178790620 @default.
W4320179921 hasConcept C179104552 @default.
W4320179921 hasConcept C185592680 @default.
W4320179921 hasConcept C2781213060 @default.