Issue 33, 2024

Photoluminescence study of perovskite materials derived from tungsten- and lanthanide-containing aurivillius layered perovskite, Bi2Na0.63Ln0.37Ta1.75W0.25O9

Abstract

Aurivillius layered perovskites are one of the most promising starting materials of a monolayer nanosheet for opening up unique applications of two-dimensional nanomaterials because of a large variety of applicable elements in the perovskite layer. In particular, the wide range of chemical compositions is convenient to explore an effective combination of A- and B-site elements for photoluminescent perovskite nanosheets. In the present study, tungsten- and lanthanide-containing aurivillius layered perovskites, Bi2Na0.63Ln0.37Ta1.75W0.25O9 (Ln = La, Ce, Pr, Nd, Eu, Gd, Tb, Sm, Dy, Ho, Er, Tm, and Yb), were prepared in order to investigate the photoluminescence (PL) associated with Bi3+/Ln3+-based layered perovskites and monolayer perovskite nanosheets. The comparison of PL spectra for the perovskite nanosheets derived from W-containing (Bi2Na0.63Ln0.37Ta1.75W0.25O9) and non-W-containing aurivillius phase layered perovskite (Bi2Na0.5La0.13Ln0.37Ta2O9) under UV-light illumination (λex. = 280–300 nm) indicated that introducing W into B sites in the perovskite layers resulted in selective energy transfer toward Eu3+. Several types of aurivillius layered perovskites were prepared to investigate the degree of inversion symmetry around Eu3+ ions.

Graphical abstract: Photoluminescence study of perovskite materials derived from tungsten- and lanthanide-containing aurivillius layered perovskite, Bi2Na0.63Ln0.37Ta1.75W0.25O9

Supplementary files

Article information

Article type
Paper
Submitted
03 Jun 2024
Accepted
12 Jul 2024
First published
24 Jul 2024

J. Mater. Chem. C, 2024,12, 12941-12950

Photoluminescence study of perovskite materials derived from tungsten- and lanthanide-containing aurivillius layered perovskite, Bi2Na0.63Ln0.37Ta1.75W0.25O9

K. Awaya, A. Yamamoto, K. Hatakeyama and S. Ida, J. Mater. Chem. C, 2024, 12, 12941 DOI: 10.1039/D4TC02269F

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