Highly efficient ultraviolet and visible light emissions from upconversion transitions in Ho/Tm/Yb co-doped lutecia-stabilized zirconia single crystals excited by a 980 nm laser
Kan Lu, Qifan Zhang, Juan Kong, Yan Hao, Wenxia Wu, Yazhao Wang, Haibo Lin, Shoulei Xu and Wen Deng
{"title":"Highly efficient ultraviolet and visible light emissions from upconversion transitions in Ho/Tm/Yb co-doped lutecia-stabilized zirconia single crystals excited by a 980 nm laser","authors":"Kan Lu, Qifan Zhang, Juan Kong, Yan Hao, Wenxia Wu, Yazhao Wang, Haibo Lin, Shoulei Xu and Wen Deng","doi":"10.1039/D4CE00844H","DOIUrl":null,"url":null,"abstract":"<p >High-quality transparent cubic lutecia-stabilized zirconia (LSZ) and LSZ:Yb<small><sub>0.25</sub></small>Tm<small><sub>0.5</sub></small>Ho<small><sub>0.03</sub></small> single crystals were fabricated by the OFZ (optical floating zone) method for the first time. For comparison, YSZ and YSZ:Yb<small><sub>0.25</sub></small>Tm<small><sub>0.5</sub></small>Ho<small><sub>0.03</sub></small> single crystals were also fabricated. The transmittance of the LSZ single crystal (80.7%) is slightly lower than that of the YSZ single crystal (86.3%) in the visible light region, which is attributed to the LSZ single crystal with a higher density (6.604 g cm<small><sup>−3</sup></small>) in comparison with that of the YSZ single crystal (5.973 g cm<small><sup>−3</sup></small>). No absorption peaks were observed in the transmission and absorption spectra of LSZ and YSZ within 200–1100 nm, indicating that both crystals are excellent host crystals. The density of LSZ:Yb<small><sub>0.25</sub></small>Tm<small><sub>0.5</sub></small>Ho<small><sub>0.03</sub></small> single crystals (6.596 g cm<small><sup>−3</sup></small>) is also higher than that of YSZ:Yb<small><sub>0.25</sub></small>Tm<small><sub>0.5</sub></small>Ho<small><sub>0.03</sub></small> single crystals (6.005 g cm<small><sup>−3</sup></small>). The absorption spectra of LSZ:Yb<small><sub>0.25</sub></small>Tm<small><sub>0.5</sub></small>Ho<small><sub>0.03</sub></small> and YSZ:Yb<small><sub>0.25</sub></small>Tm<small><sub>0.5</sub></small>Ho<small><sub>0.03</sub></small> single crystals exhibited several absorption peaks at 363, 453, 678, and 785 nm and a strong broad absorption band within 850–1000 nm. The upconversion photoluminescence (UCPL) spectrum of the LSZ:Yb<small><sub>0.25</sub></small>Tm<small><sub>0.5</sub></small>Ho<small><sub>0.03</sub></small> single crystal excited at 980 nm exhibited several emission peaks at 308, 373, 488, 540, 550, 655 and 794 nm; similar emission peaks were observed in the UCPL spectrum of the YSZ:Yb<small><sub>0.25</sub></small>Tm<small><sub>0.5</sub></small>Ho<small><sub>0.03</sub></small> single crystal. The intensities of the emission peaks of the former are higher than those of the corresponding peaks of the latter, which is due to the former having a higher density and lower phonon energy in comparison with the latter. Power curves indicated that the 308 and 373 nm emissions are 4-photon upconversion processes, the 488 nm emission is a 3-photon process, and the 540 nm and 655 nm emissions are 2-photon processes. These results indicate that under the excitation at 980 nm, the LSZ:Yb<small><sub>0.25</sub></small>Tm<small><sub>0.5</sub></small>Ho<small><sub>0.03</sub></small> single crystal has high efficiency over the YSZ:Yb<small><sub>0.25</sub></small>Tm<small><sub>0.5</sub></small>Ho<small><sub>0.03</sub></small> single crystal in ultraviolet and visible light emissions.</p>","PeriodicalId":70,"journal":{"name":"CrystEngComm","volume":" 41","pages":" 5907-5915"},"PeriodicalIF":2.6000,"publicationDate":"2024-10-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"CrystEngComm","FirstCategoryId":"92","ListUrlMain":"https://pubs.rsc.org/en/content/articlelanding/2024/ce/d4ce00844h","RegionNum":3,"RegionCategory":"化学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"CHEMISTRY, MULTIDISCIPLINARY","Score":null,"Total":0}
引用次数: 0
Abstract
High-quality transparent cubic lutecia-stabilized zirconia (LSZ) and LSZ:Yb0.25Tm0.5Ho0.03 single crystals were fabricated by the OFZ (optical floating zone) method for the first time. For comparison, YSZ and YSZ:Yb0.25Tm0.5Ho0.03 single crystals were also fabricated. The transmittance of the LSZ single crystal (80.7%) is slightly lower than that of the YSZ single crystal (86.3%) in the visible light region, which is attributed to the LSZ single crystal with a higher density (6.604 g cm−3) in comparison with that of the YSZ single crystal (5.973 g cm−3). No absorption peaks were observed in the transmission and absorption spectra of LSZ and YSZ within 200–1100 nm, indicating that both crystals are excellent host crystals. The density of LSZ:Yb0.25Tm0.5Ho0.03 single crystals (6.596 g cm−3) is also higher than that of YSZ:Yb0.25Tm0.5Ho0.03 single crystals (6.005 g cm−3). The absorption spectra of LSZ:Yb0.25Tm0.5Ho0.03 and YSZ:Yb0.25Tm0.5Ho0.03 single crystals exhibited several absorption peaks at 363, 453, 678, and 785 nm and a strong broad absorption band within 850–1000 nm. The upconversion photoluminescence (UCPL) spectrum of the LSZ:Yb0.25Tm0.5Ho0.03 single crystal excited at 980 nm exhibited several emission peaks at 308, 373, 488, 540, 550, 655 and 794 nm; similar emission peaks were observed in the UCPL spectrum of the YSZ:Yb0.25Tm0.5Ho0.03 single crystal. The intensities of the emission peaks of the former are higher than those of the corresponding peaks of the latter, which is due to the former having a higher density and lower phonon energy in comparison with the latter. Power curves indicated that the 308 and 373 nm emissions are 4-photon upconversion processes, the 488 nm emission is a 3-photon process, and the 540 nm and 655 nm emissions are 2-photon processes. These results indicate that under the excitation at 980 nm, the LSZ:Yb0.25Tm0.5Ho0.03 single crystal has high efficiency over the YSZ:Yb0.25Tm0.5Ho0.03 single crystal in ultraviolet and visible light emissions.