Photoluminescence properties of a ScBO3:Cr3+ phosphor and its applications for broadband near-infrared LEDs

The rapid extension of solid state lighting technologies offers the possibility to develop broadband near-infrared (NIR) phosphor-converted LEDs (pc-LEDs) as novel NIR light sources. In this paper, a new NIR-emitting phosphor ScBO3:Cr3+ was synthesized by a high temperature solid state reaction meth...

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Veröffentlicht in:	RSC advances 2018-01, Vol.8 (22), p.12035-12042
Hauptverfasser:	Shao, Qiyue, Ding, Hao, Yao, Leqi, Xu, Junfeng, Liang, Chao, Jiang, Jianqing
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Sprache:	eng
Schlagworte:	Absorption spectra Broadband Chemical synthesis Chemistry Emitters Energy conversion efficiency Field strength Light emitting diodes Light sources Phosphors Photoluminescence Solid phases Solid state
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creator	Shao, Qiyue Ding, Hao Yao, Leqi Xu, Junfeng Liang, Chao Jiang, Jianqing
description	The rapid extension of solid state lighting technologies offers the possibility to develop broadband near-infrared (NIR) phosphor-converted LEDs (pc-LEDs) as novel NIR light sources. In this paper, a new NIR-emitting phosphor ScBO3:Cr3+ was synthesized by a high temperature solid state reaction method. Phase structure, spectroscopic properties, luminescent lifetime, quantum yield, emitter concentration influences and thermal quenching behavior of ScBO3:Cr3+, as well as its applications for NIR pc-LEDs, were systematically investigated. ScBO3:Cr3+ phosphors exhibit a broad absorption band ranging from 400 to 530 nm, which matches well with the characteristic emission of the blue LED chip. Moreover, Cr3+ ions occupy the Sc3+ sites with relatively low crystal field strength in the ScBO3 host, and therefore ScBO3:Cr3+ phosphors show intense broadband emission peaking at ∼800 nm upon excitation at 460 nm, originating from spin-allowed 4T2 → 4A2 transition of Cr3+ ions. The optimum Cr3+ concentration was determined to be ∼2 mol% with a quantum yield of ∼65%. A broadband NIR pc-LED prototype device was fabricated by the combination of ScBO3:Cr3+ phosphors and a blue LED chip, which showed a maximum NIR light output power of ∼26 mW and a corresponding energy conversion efficiency of ∼7%. The results indicate the great potential of ScBO3:Cr3+ phosphors for applications in broadband NIR pc-LEDs.
doi_str_mv	10.1039/c8ra01084f
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A broadband NIR pc-LED prototype device was fabricated by the combination of ScBO3:Cr3+ phosphors and a blue LED chip, which showed a maximum NIR light output power of ∼26 mW and a corresponding energy conversion efficiency of ∼7%. 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A broadband NIR pc-LED prototype device was fabricated by the combination of ScBO3:Cr3+ phosphors and a blue LED chip, which showed a maximum NIR light output power of ∼26 mW and a corresponding energy conversion efficiency of ∼7%. 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A broadband NIR pc-LED prototype device was fabricated by the combination of ScBO3:Cr3+ phosphors and a blue LED chip, which showed a maximum NIR light output power of ∼26 mW and a corresponding energy conversion efficiency of ∼7%. The results indicate the great potential of ScBO3:Cr3+ phosphors for applications in broadband NIR pc-LEDs.</abstract><cop>Cambridge</cop><pub>Royal Society of Chemistry</pub><pmid>35539401</pmid><doi>10.1039/c8ra01084f</doi><tpages>8</tpages><oa>free_for_read</oa></addata></record>
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subjects	Absorption spectra Broadband Chemical synthesis Chemistry Emitters Energy conversion efficiency Field strength Light emitting diodes Light sources Phosphors Photoluminescence Solid phases Solid state
title	Photoluminescence properties of a ScBO3:Cr3+ phosphor and its applications for broadband near-infrared LEDs
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