Preparation and characterization of MnIn-layered double hydroxides (LDHs), extension of the synthesis to fabricate MnM(III)-LDHs (M = Al, Sc, Cr, Fe, Ga), and the comparison of their photocatalytic and catalytic activities in the oxidation of hydroquinone

Szabó, Vivien and Mészáros, Rebeka Ildikó and Kónya, Zoltán and Kukovecz, Ákos and Pálinkó, István and Sipos, Pál Miklós and Szabados, Márton (2022) Preparation and characterization of MnIn-layered double hydroxides (LDHs), extension of the synthesis to fabricate MnM(III)-LDHs (M = Al, Sc, Cr, Fe, Ga), and the comparison of their photocatalytic and catalytic activities in the oxidation of hydroquinone. JOURNAL OF MOLECULAR STRUCTURE, 1261. No. 132966. ISSN 0022-2860

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Abstract

The preparation of a new member of the hydrotalcite supergroup, i.e., MnIn-LDHs with Mn:In molar ra- tios from 5:2 to 8:2 was developed for the first time, by using the co-precipitation technique. The effect of the presence of air, N2 or H2 was systematically tested. The physico-chemical properties of the solids were characterized in detail. The application of reductive atmosphere proved to be vital for achieving phase-pure products. While the thermal behavior of the LDHs with different Mn:In molar ratios were largely similar, the increasing Mn:In ratio resulted in decreasing direct optical band gaps from 4.06 to 3.14 eV. By using the optimized conditions found for MnIn-LDHs, Mn4 M(III)-LDHs were also prepared with M = Al, Sc, Cr, Fe, Ga. The catalytic performance of the various Mn(II)-based LDHs were tested under dark and UV–Vis-illuminated conditions for the transformation of hydroquinone in acetonitrile medium. The photocatalytic mechanism over MnIn-LDHs was studied by radical trapping tests, indicating the photogenerated holes play an important role in the decomposition of hydroquinone and even benzoquinone. The incorporation of Sc(III), Cr(III) and Fe(III) resulted in catalysts with outstanding performance both with and without illumination; under these conditions several metal oxides/semiconductors (like BiVO4, Bi2 WO6 , SrTiO3 , Bi2 O3 , SnO2 , WO3 , In2 O3 , ZnO and Degussa P25 TiO2 ) and even the nonmetallic g-C3 N4 proved to be inactive. The largest photocatalytic contributions were measured for the Mn4 Cr- and Mn4 In- LDHs. The selectivity and yield of the benzoquinone formation was found to be the largest in the case of the Mn4 Al-, Mn4 Fe- and Mn4 In-LDHs using UV–Vis light source.

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