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W2979501281 abstract "The co-decomposition of non-noble metals into Ru nanoparticles (NPs) would provide multiple active centers as well as synergistically alter the reaction pathway, enhancing the catalytic hydrogenation performance. Herein, a facile route for synthesizing trielement Ru-Ni-Fe alloy NPs was proposed. The catalytic hydrogenation performance of NPs was measured using p-nitrophenol as a model. The synergistic effect of these three elements (Ru, Ni, and Fe) and synergistic catalysis of multiple crystal faces greatly improved the catalytic hydrogenation performance of Ru44Ni28Fe28 alloy NPs. Ru with more vacant orbitals showed a strong coordination with BH4- for the generation of active H species. Ni played a major role in transporting electrons and active H species, increasing the accessibility of catalytically active sites. Fe could cooperate with BH4- to produce active H species and promote electrons transfer. Ru44Ni28Fe28 alloy NPs could be reused and applied for the fabrication of films at the oil-water (ethyl acetate-water) interface. The densely packed Ru44Ni28Fe28 NP films were good Raman substrates for monitoring the complete conversion of 4-nitrothiophenol into 4-aminothiophenol. The rational design of Ru44Ni28Fe28 will broaden the application range of Ru-based catalysts and provide new insights into the rational design of other multisite alloy catalysts." @default.
W2979501281 created "2019-10-18" @default.
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W2979501281 date "2019-10-07" @default.
W2979501281 modified "2023-10-04" @default.
W2979501281 title "Rational Design of Multisite Trielement Ru–Ni–Fe Alloy Nanocatalysts with Efficient and Durable Catalytic Hydrogenation Performances" @default.
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W2979501281 cites W1992035098 @default.
W2979501281 cites W2008998203 @default.
W2979501281 cites W2010945344 @default.
W2979501281 cites W2032017512 @default.
W2979501281 cites W2035937506 @default.
W2979501281 cites W2073872893 @default.
W2979501281 cites W2081813848 @default.
W2979501281 cites W2084653571 @default.
W2979501281 cites W2088741523 @default.
W2979501281 cites W2094613280 @default.
W2979501281 cites W2113571836 @default.
W2979501281 cites W2133390404 @default.
W2979501281 cites W2136339388 @default.
W2979501281 cites W2146169875 @default.
W2979501281 cites W2157540188 @default.
W2979501281 cites W2167509554 @default.
W2979501281 cites W2174088175 @default.
W2979501281 cites W2175108963 @default.
W2979501281 cites W2185905005 @default.
W2979501281 cites W2289695317 @default.
W2979501281 cites W2313995062 @default.
W2979501281 cites W2315690014 @default.
W2979501281 cites W2328682710 @default.
W2979501281 cites W2330246146 @default.
W2979501281 cites W2331188982 @default.
W2979501281 cites W2344708109 @default.
W2979501281 cites W2470199101 @default.
W2979501281 cites W2510229876 @default.
W2979501281 cites W2552594940 @default.
W2979501281 cites W2568425818 @default.
W2979501281 cites W2592897450 @default.
W2979501281 cites W2598285546 @default.
W2979501281 cites W2599031302 @default.
W2979501281 cites W2612356657 @default.
W2979501281 cites W2621487563 @default.
W2979501281 cites W2752932003 @default.
W2979501281 cites W2768135239 @default.
W2979501281 cites W2788068893 @default.
W2979501281 cites W2791965744 @default.
W2979501281 cites W2793689666 @default.
W2979501281 cites W2803771013 @default.
W2979501281 cites W2883369579 @default.
W2979501281 cites W2883390734 @default.
W2979501281 cites W2883499144 @default.
W2979501281 cites W2884305670 @default.
W2979501281 cites W2885063588 @default.
W2979501281 cites W2885943876 @default.
W2979501281 cites W2886217598 @default.
W2979501281 cites W2886581257 @default.
W2979501281 cites W2887178233 @default.
W2979501281 cites W2887449153 @default.
W2979501281 cites W2887514459 @default.
W2979501281 cites W2887667705 @default.
W2979501281 cites W2888358588 @default.
W2979501281 cites W2894222614 @default.
W2979501281 cites W2905136872 @default.
W2979501281 cites W2910372448 @default.
W2979501281 cites W2915351284 @default.
W2979501281 cites W2932091735 @default.
W2979501281 cites W2951197148 @default.
W2979501281 cites W4229737672 @default.
W2979501281 cites W4246841779 @default.
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W2979501281 doi "https://doi.org/10.1021/acsami.9b10398" @default.
W2979501281 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31588721" @default.
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