☆ 4.6 Article

Radiation defects and intrinsic luminescence of cancrinite

JOURNAL OF LUMINESCENCE (2022)

Journal

JOURNAL OF LUMINESCENCE

Volume 243, Issue -, Pages -

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ELSEVIER

DOI: 10.1016/j.jlumin.2021.118628

Keywords

Carbonate radical; Microporous; Intrinsic luminescence; Radiation defects; Cancrinite

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INRTU [15-RAS-2020]
[0284-2021-0004]

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Abstract

At temperatures above 120K, nonradiative decay of electronic excitations in microporous cancrinite leads to the formation of hole radicals. The intrinsic luminescence of cancrinite is attributed to the radiative recombination of electronic excitations.

The study of hole radiation defects and intrinsic luminescence in microporous cancrinite is carried out. It is shown that nonradiative decay of electronic excitations at temperatures above 120 K leads to the formation of hole radicals (CO3)(center dot-). The intrinsic luminescence of cancrinite is attributed to the radiative recombination of electronic excitations.

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Radiation defects and intrinsic luminescence of cancrinite

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Radiation defects and intrinsic luminescence of cancrinite

Journal

JOURNAL OF LUMINESCENCE

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