Tuning green-to-red ratio of Ho3+ Activated YPO4 dual-mode luminescence through Yb3+ sensitized nano phosphors

Current Materials Science Pub Date : 2023-05-17 DOI:10.2174/2666145416666230517152942

V. N. K. Putta, Sirisha Bandi, Girija Venkateswara Koneru, Phani Raja Kanuparthy

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Abstract

Yb3+/Ho3+co-doped YPO4 nano phosphors were synthesized by polyol route, which has both up-conversion (UC) and down-conversion (DC) characteristics and excellent luminescent properties. DC peaks were seen at ~460, ~550, and ~650 nm. Switching at ~750 with 300 nm excitation, a very faint P-O charge-transfer (CT) band of the Ho3+ ion and a minute non-radiative resonant energy transfer were observed. We found that YPO4: Yb3+/Ho3+ is an up-converting (UC ) nano phosphor capable of large-scale generation and enhancement of luminescence with green and red emissions.RESULT: Under strong laser irradiation at 980 nm, the up-conversion emission spectrum shows obvious peaks expected for Ho3+ ions at ~550 and ~650 nm. This process produces high-quality nanocrystalline materials with sizes in the range of tens of nm. Considering the results obtained under excitation at 300nm, YPO4:Yb3+/Ho3+ yielded high quantum yield values This finding can be used to manufacture high-efficiency phosphors and demonstrates that the nano-phosphor materials covered by this method have a wide range of applications.

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通过Yb3+敏化纳米荧光粉调节Ho3+激活的YPO4双模发光的绿红比

采用多元醇法合成了Yb3+/Ho3+共掺杂的YPO4纳米荧光粉，该荧光粉具有上转换(UC)和下转换(DC)特性，具有优异的发光性能。在~460、~550和~650 nm处可见直流峰。在~750和300 nm激发下切换，观察到Ho3+离子的P-O电荷转移(CT)带非常微弱，并观察到一分钟的非辐射共振能量转移。我们发现YPO4: Yb3+/Ho3+是一种上转换(UC)纳米荧光粉，能够大规模产生并增强绿色和红色发光。结果:在980 nm强激光照射下，Ho3+离子在~550和~650 nm处出现明显的上转换发射峰。该工艺生产出尺寸在几十纳米范围内的高质量纳米晶体材料。考虑到在300nm激发下获得的结果，YPO4:Yb3+/Ho3+获得了高量子产额值，这一发现可用于制造高效荧光粉，表明该方法所覆盖的纳米荧光粉材料具有广泛的应用前景。

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Current Materials Science Materials Science-Materials Science (all)

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0.80

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