Synthesis, structure, photoluminescence, band gap and energy transfer mechanism of a novel bimetallic thulium–mercury compound with a three-dimensional framework

Synthesis, structure, photoluminescence, band gap and energy transfer mechanism of a novel bimetallic thulium–mercury compound with a three-dimensional framework

Under hydrothermal conditions, a novel bimetallic thulium–mercury compound {[Tm(H 2 O) 2 (IA) 3 ] 2 n [(Hg 6 Br 13 ) n ]}( n HgBr 2 )·4 n H 2 O· n H 3 O ( 1 ) (IA = isonicotinato anion) was prepared and the crystal structure was characterized by single-crystal and powder X-ray diffraction. It is cha...

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Bibliographic Details
Published in:Journal of the Iranian Chemical Society 2021, Vol.18 (1), p.181-189
Main Author: Chen, Wen-Tong
Format: Article
Language:eng
Subjects:
Analytical Chemistry
Bimetals
Biochemistry
Chemical synthesis
Chemistry
Chemistry and Materials Science
Chromaticity
Crystal structure
Emission
Energy gap
Energy levels
Energy transfer
Inorganic Chemistry
Mercury compounds
Organic Chemistry
Original Paper
Photoluminescence
Physical Chemistry
Single crystals
Solid state
Thermogravimetry
Thulium
Upconversion
X ray powder diffraction
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Summary:Under hydrothermal conditions, a novel bimetallic thulium–mercury compound {[Tm(H 2 O) 2 (IA) 3 ] 2 n [(Hg 6 Br 13 ) n ]}( n HgBr 2 )·4 n H 2 O· n H 3 O ( 1 ) (IA = isonicotinato anion) was prepared and the crystal structure was characterized by single-crystal and powder X-ray diffraction. It is characterized by a three-dimensional (3D) framework with a novel two-dimensional (2D) inorganic [(Hg 6 Br 13 ) n ] layer. Solid-state photoluminescence measurements revealed that compound 1 emits upconversion mazarine emission bands, which are originated from the 1 G 4  →  3 H 6 and 1 D 2  →  3 H 4 characteristic emissions of the 4 f electron intrashell transitions of Tm(III) ions. An energy transfer mechanism is reported. Compound 1 displays CIE chromaticity coordinates of 0.1288 and 0.0635 in the mazarine region. A solid-state UV–Vis–NIR diffuse reflectance spectrum unveiled that compound 1 has a wide optical band gap of 2.69 eV. A thermogravimetry analysis measurement is also reported. Graphic abstract A novel bimetallic thulium–mercury compound was prepared and characterized. It features a 3D framework with a novel 2D inorganic [(Hg 6 Br 13 ) n ] layer. It contains many mercury(II) ions with four different coordination environments. It emits upconversion mazarine photoluminescence emission peaks, which could be attributed to the 1 G 4  →  3 H 6 and 1 D 2  →  3 H 4 characteristic emissions of the 4 f electron intrashell transitions of the Tm(III) ions. An energy level diagram was used to explain the energy transfer mechanism. It has CIE chromaticity coordinates of 0.1288 and 0.0635 in the mazarine region, and it possesses a wide optical band gap of 2.69 eV.
ISSN:1735-207X
1735-2428