Copper and iron species were co-deposited onto a hydroxyapatite surface to produce bimetallic catalysts. Characterization techniques (XRD, XPS, DR-UV spectroscopy and TEM-EDX) helped in unveiling the speciation, nuclearity, and electronic properties of copper and iron in samples with variable total metal loading (1–10 wt.%) and relative Cu-to-Fe ratios. The speciation of Cu was revealed to be not affected by Fe and vice versa. Conversely, the metal loading turned out to be a key factor ruling the aggregation state of Cu and Fe species. The samples were tested as catalysts in the Selective Catalytic Reduction of NO by NH3 (NH3-SCR) in dry and wet environments under quasi-real conditions (50,000 ppm O2; 50,000 ppm H2O, if present; 120,000 h−1 GHSV) in the 200−500 °C interval. Although the combination of Cu and Fe affords a modest improvement in water resistance compared to their monometallic counterparts, no substantial enhancement in activity was observed for the bimetallic hydroxyapatite-based SCR catalysts.
Exploring the evolution of co-deposited copper and iron nanostructures on hydroxyapatite: Implications in NH3-SCR reaction / M.G. Galloni, W. Zhang, A. Giroir-Fendler, S. Campisi, A. Gervasini. - In: CATALYSTS. - ISSN 2073-4344. - 15:10(2025 Oct), pp. 929.1-929.22. [10.3390/catal15100929]
Exploring the evolution of co-deposited copper and iron nanostructures on hydroxyapatite: Implications in NH3-SCR reaction
M.G. GalloniPrimo
;S. Campisi
Penultimo
;A. GervasiniUltimo
2025
Abstract
Copper and iron species were co-deposited onto a hydroxyapatite surface to produce bimetallic catalysts. Characterization techniques (XRD, XPS, DR-UV spectroscopy and TEM-EDX) helped in unveiling the speciation, nuclearity, and electronic properties of copper and iron in samples with variable total metal loading (1–10 wt.%) and relative Cu-to-Fe ratios. The speciation of Cu was revealed to be not affected by Fe and vice versa. Conversely, the metal loading turned out to be a key factor ruling the aggregation state of Cu and Fe species. The samples were tested as catalysts in the Selective Catalytic Reduction of NO by NH3 (NH3-SCR) in dry and wet environments under quasi-real conditions (50,000 ppm O2; 50,000 ppm H2O, if present; 120,000 h−1 GHSV) in the 200−500 °C interval. Although the combination of Cu and Fe affords a modest improvement in water resistance compared to their monometallic counterparts, no substantial enhancement in activity was observed for the bimetallic hydroxyapatite-based SCR catalysts.
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