Hydrothermal synthesis and luminescent properties of Sb3+-doped Sr3(PO4)2

Wen, Fusheng; Chen, Jie‐Sheng; Kim, Jihun; Niu, Jinghua; Li, Wenlian

doi:10.1016/j.jssc.2004.05.027

Cited by 23 publications

(15 citation statements)

References 26 publications

(50 reference statements)

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“…The peak of the excitation band is at 250 nm. The result is similar to the photoluminescence characteristics of the Sb 3+ -doped SrPO 4 [16], of which the emission peak is at 396 nm. According to it, the ground state of Sb 3+ (5s 2 ) is 1 S 0 .…”

Section: Article In Presssupporting

confidence: 81%

Synthesis and characteristics of a new three-dimensional molybdoantimonate Na4Sb12Mo5O35

Wang

Zhang

Sun

et al. 2005

Journal of Solid State Chemistry

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Section: Article In Presssupporting

confidence: 81%

Synthesis and characteristics of a new three-dimensional molybdoantimonate Na4Sb12Mo5O35

Wang

Zhang

Sun

et al. 2005

Journal of Solid State Chemistry

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“…The emission of Sb 3+ ion in this site consisted of two bands and their intensity ratio was strongly temperature dependent, which was ascribed to a Jahn–Teller effect acting on the 3 P 1 excited state of Sb 3+ ion . Comparatively, although there are two crystallographic sites for Sr 2+ ion in Sr 3 (PO 4 ) 2 , the luminescence properties of the Sb 3+ ‐doped Sr 3 (PO 4 ) 2 crystal are similar with that of Sb 3+ ‐doped orthophosphates . The luminescence of Sb 3+ in trimeta‐phosphates Ln (PO 3 ) 3 ( Ln = Sc, Lu, Y, Gd) was also reported and the photoluminescence spectra and decay time measurements were given to show the differences in luminescence characteristics of four Sb 3+ centers .…”

Section: Introductionmentioning

confidence: 87%

“…From the previous work about the spectroscopy of Sb 3+ discussed above, it can be found that crystallographic structure, coordination number, and the charge compensation effect, can influence the luminescence of Sb 3+ ion in host lattices. However, there is still a lot of research needed in this area to understand the quantitative correlations between the host environment and the optical properties of Sb 3+ ion.…”

Section: Introductionmentioning

confidence: 99%

Design and Synthesis of CdWO₄:Sb³⁺ Phosphor Based on sp Energy Level Regularities of Sb³⁺ Ion

Wang

Guo

et al. 2015

J. Am. Ceram. Soc.

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Sb3+‐activated CdWO4 phosphors were designed according to sp energy levels regularities of Sb3+ ion in some inorganic compounds. The sp energy levels regularities of Sb3+ in dozens of compounds were established with the aid of the dielectric theory of the chemical bond for complex crystals: EA = 6.2187−1.7584he, EB = 7.019−1.957he, EC = 7.259−1.964he. Environmental factor he of Cd site was calculated to be 1.6583 with the refined crystal structure and refractive index of CdWO4:Sb3+. Sb3+‐doped CdWO4 was synthesized through a precipitation method and its structure was refined with the General Structure Analysis System. The transition energy of A band of Sb3+ in CdWO4 can be predicted to be 3.312 eV (374 nm), according to the relationship equation between EA and environmental factor he. By monitoring the 521 nm emission band, the excitation spectrum gives a weak excitation band peaking at 355 nm, which was assigned to the 1S0–3P1 transition of Sb3+ according to our prediction. Thus, Sb3+‐doped CdWO4 phosphor was designed and synthesized successfully based on sp energy levels regularities of Sb3+ ion. This work is a great help to understand the spectroscopy of Sb3+ ion and will be useful for the design and development of Sb3+‐doped phosphors for applications.

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“…5 shows emission spectra of YAG:Eu 3+ phosphors sintered at different temperatures. The emission spectra consist of sharp peaks from 550 to 650 nm, which correspond to the transitions from the excited 5 D 0 level to 7 F J ðJ ¼ 124Þ levels of Eu 3+ ion [13]. The strongest emission peak of nanocrystalline YAG:Eu 3+ phosphors is 5 D 0 -7 F 1 transition centered at 592 nm and 598 nm.…”

Section: Article In Pressmentioning

confidence: 99%

Sol–gel combustion synthesis and luminescent properties of nanocrystalline YAG:Eu3+ phosphors

Zhou

Zhang

Wang

et al. 2005

Journal of Crystal Growth

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Hydrothermal synthesis and luminescent properties of Sb3+-doped Sr3(PO4)2

Cited by 23 publications

References 26 publications

Synthesis and characteristics of a new three-dimensional molybdoantimonate Na4Sb12Mo5O35

Synthesis and characteristics of a new three-dimensional molybdoantimonate Na4Sb12Mo5O35

Design and Synthesis of CdWO₄:Sb³⁺ Phosphor Based on sp Energy Level Regularities of Sb³⁺ Ion

Sol–gel combustion synthesis and luminescent properties of nanocrystalline YAG:Eu3+ phosphors

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Hydrothermal synthesis and luminescent properties of Sb3+-doped Sr3(PO4)2

Cited by 23 publications

References 26 publications

Synthesis and characteristics of a new three-dimensional molybdoantimonate Na4Sb12Mo5O35

Synthesis and characteristics of a new three-dimensional molybdoantimonate Na4Sb12Mo5O35

Design and Synthesis of CdWO4:Sb3+ Phosphor Based on sp Energy Level Regularities of Sb3+ Ion

Sol–gel combustion synthesis and luminescent properties of nanocrystalline YAG:Eu3+ phosphors

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Design and Synthesis of CdWO₄:Sb³⁺ Phosphor Based on sp Energy Level Regularities of Sb³⁺ Ion