NIR-Fluorescent Hybrid Materials of Tm3+ Complexes Carried by Nano-SiO2 via Improved Sol–Gel Method

Wang, Yanxin; Sun, Qiuyu; Huang, Linjun; Lu, Ping; Wang, Xiaozhen; Zhang, Zhe; Tang, Jianguo; Belfiore, Laurence A.

doi:10.3390/nano10101964

Nanomaterials

2020

DOI: 10.3390/nano10101964

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NIR-Fluorescent Hybrid Materials of Tm3+ Complexes Carried by Nano-SiO2 via Improved Sol–Gel Method

Yanxin Wang¹,

Qiuyu Sun²,

Linjun Huang³

et al.

Abstract: Tm3+ has obvious emission characteristics in the near-infrared band. Thulium ions combined with different organic ligands lead to different fluorescent properties. In the near-infrared region, Tm3+ is a down-conversion fluorescent material that is unstable under high temperature and acidic conditions. Moreover, in those complex environments, the fluorescence from Tm3+ complex is usually degraded. In this work, two kinds of near-infrared fluorescent complexes, Tm(TTA)3phen and Tm(DBM)3phen, were prepared, and t… Show more

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Cited by 2 publications

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An Extra‐Broadband VIS‐NIR Emitting Phosphor toward Multifunctional LED Applications

Xiao

et al. 2021

Adv Funct Materials

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The development of extra-broadband emitting phosphors is challenging but meaningful work. So far, however, phosphors that can be effectively excited by GaN-based blue light-emitting diode (LED) chips and emit from visible (VIS) to near-infrared (NIR) regions are still rare. Herein, this study designs an extrabroadband VIS-NIR emitting phosphor with emission band ranging from 460 nm to 880 nm (bandwidth >400 nm) upon 450 nm excitation, owing to an efficient energy transfer from Ce 3+ to the red and NIR emitting Mn 2+ ions in Lu 2 BaAl 4 SiO 12 (LBAS) host. By the analysis of extended X-ray absorption fine structure (EXAFS) spectra and fluorescence lifetimes, it is demonstrated that the NIR emission most probably originates from those Mn 2+ occupying the dodecahedral sites with high symmetry rather than the exchange-coupled Mn 2+ -Mn 2+ pairs. Furthermore, two single-phase phosphor-converted LEDs are fabricated by combining blue LEDs with LBAS:Ce 3+ ,Mn 2+ phosphors, and thanks to the extra-broadband emission, the resultant devices may realize multifunctional applications, such as in high-quality general lighting, NIR spectroscopy, and plant growth lighting.

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An Extra‐Broadband VIS‐NIR Emitting Phosphor toward Multifunctional LED Applications

Xiao

et al. 2021

Adv Funct Materials

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Organometallic modification of silica with europium endowing the fluorescence properties: the key technique for numerical quality monitoring

Wu,

Zhang,

Hong

et al. 2024

Chinese Chemical Letters

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NIR-Fluorescent Hybrid Materials of Tm3+ Complexes Carried by Nano-SiO2 via Improved Sol–Gel Method

Cited by 2 publications

References 32 publications

An Extra‐Broadband VIS‐NIR Emitting Phosphor toward Multifunctional LED Applications

An Extra‐Broadband VIS‐NIR Emitting Phosphor toward Multifunctional LED Applications

Organometallic modification of silica with europium endowing the fluorescence properties: the key technique for numerical quality monitoring

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