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Role of thermal decomposition process in the photocatalytic or photoluminescence properties of BiPO 4 polymorphs

2020; Wiley; Volume: 92; Issue: 11 Linguagem: Inglês

10.1002/wer.1340

1554-7531

A. Bouddouch, Elhassan Amaterz, B. Bakiz, Aziz Taoufyq, F. Guinneton, S. Villain, J.R. Gavarri, Mohmad Ezahri, Jean-‎Christophe Valmalette, A. Benlhachemi,

Polyoxometalates: Synthesis and Applications

Abstract Thermal decomposition process was used to obtain modified photocatalytic and/or photoluminescence properties of bismuth phosphate polymorphs. The precursor BiPO 4 , 0.7H 2 O was synthesized by a coprecipitation route. The observed polymorphs were the hexagonal P3 1 21 hydrate phase BiPO 4 , 0.7H 2 O at 25°C, a mix system of hexagonal and monoclinic P2 1 /n phases at 200°C and 400°C, a mix system of monoclinic phases P2 1 /n and P2 1 /m at 600°C, and a unique monoclinic phase P2 1 /m at 900°C. The X‐ray diffraction analyses allowed evidencing lattice deformations due to structural defects. The photocatalytic activities in the presence of rhodamine B in aqueous solution were determined using UV light irradiation. The best photocatalytic efficiencies were observed with the mix systems resulting from thermal decomposition at 400 and 600°C. Photoluminescence experiments performed under UV‐laser light irradiation revealed unexpected emissions in the green‐orange range, with optimal intensities for the mix systems observed at 400°C. The role of structural defects resulting from decomposition process is discussed. Practitioner points Thermal decomposition is used to introduce structural defects in BiPO 4 polymorphs The BiPO 4 intermediate systems are used to photodegrade rhodamine B Active species trapping experiments are performed Photoluminescence experiments highlight green‐orange emissions Structural defects are at the origin of this photoluminescence