Evidence of Surface Properties by Isopropanol Decomposition Reaction and NH3‐TPD over Ni−Fe Spinel Nanoparticles Prepared via Hydrothermal Route

In this work, surface properties evaluated by catalytic conversion of isopropanol and by ammonia Temperature Programmed Reduction (NH3‐TPD) over ferrite spinel nanoparticles was investigated. Bulk NiFe2O4 with specific surface area 114 m2/g and crystallites size 6 nm was prepared by hydrothermal syn...

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Veröffentlicht in:ChemistrySelect (Weinheim) 2023-01, Vol.8 (4), p.n/a
Hauptverfasser: Benrabaa, Rafik, Rubbens, Annick, Löfberg, Axel, Vannier, Rose‐Noëlle
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description In this work, surface properties evaluated by catalytic conversion of isopropanol and by ammonia Temperature Programmed Reduction (NH3‐TPD) over ferrite spinel nanoparticles was investigated. Bulk NiFe2O4 with specific surface area 114 m2/g and crystallites size 6 nm was prepared by hydrothermal synthesis using nitrates as precursors. X‐ray diffraction (XRD), Raman spectroscopy, specific surface area by B.E.T, Scanning Electron Microscopy (SEM) and X‐ray energy dispersive microanalysis (EDS), Transmission Electron Microscopy (TEM) and X‐ray Photoelectron Spectroscopy (XPS) techniques were used for their structural and textural characterizations. The reducibility by hydrogen at variable temperatures was investigated by Temperature Programmed reduction (H2‐TPR) and Thermal Gravimetric Analysis‐ Differential Scanning Calorimetry (TGA‐DSC). The total acidity and acid strength distribution was determined by NH3‐TPD. The synthesized oxide showed the presence of mixed phases containing the inverse spinel structure NiFe2O4 as the major phase and iron oxide α‐Fe2O3 as an additional phase. It was shown that the surface of the powder was richer in Ni2+ species. The surface acidity (Brönsted and Lewis) determined by NH3‐TPD showed that the number of acidic sites increased dramatically with the temperature. The catalytic conversion of isopropanol yields both acidic and redox/basic sites were available. A good correlation between textural, structural, redox and acid‐base properties of catalyst is established. NiFe2O4 spinel oxide prepared by hydrothermal route showed the presence of mixed phases containing the inverse spinel structure NiFe2O4 as the major phase and iron oxide α‐Fe2O3 as an additional phase. It was shown that the surface of the powder was richer in Ni2+ species. The surface acidity (Brönsted and Lewis) showed that the number of acidic sites increased dramatically with the temperature. The catalytic conversion of isopropanol yields both acidic and redox/basic sites were available.
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The surface acidity (Brönsted and Lewis) determined by NH3‐TPD showed that the number of acidic sites increased dramatically with the temperature. The catalytic conversion of isopropanol yields both acidic and redox/basic sites were available. A good correlation between textural, structural, redox and acid‐base properties of catalyst is established. NiFe2O4 spinel oxide prepared by hydrothermal route showed the presence of mixed phases containing the inverse spinel structure NiFe2O4 as the major phase and iron oxide α‐Fe2O3 as an additional phase. It was shown that the surface of the powder was richer in Ni2+ species. The surface acidity (Brönsted and Lewis) showed that the number of acidic sites increased dramatically with the temperature. 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subjects acid-base properties
Catalysis
characterization
Chemical Sciences
isopropanol
reducibility
spinel
title Evidence of Surface Properties by Isopropanol Decomposition Reaction and NH3‐TPD over Ni−Fe Spinel Nanoparticles Prepared via Hydrothermal Route
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