G. Lesly Jimenez , Lijun Wang , C. Vazquez-Lopez , A.N. Meza-Rocha , Marcin Kochanowicz , B. Starzyk , Ciro Falcony , Dominik Dorosz
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Abstract
In this study, the upconversion (UC) luminescence of fluoroindate glasses (InF3G) co-doped with Yb-Nd-Er (Tm) ions excited in the NIR-I biological window was analyzed. In the first system, UC emission of singly Er3+ doped InF3G under 808 nm excitation occurred to be more efficient than those observed in InF3G co-doped with Yb–Er and Yb-Nd-Er. The intensity of UC emission (InF3G-Er) was 22 % higher than InF3G-Yb-Er, and even more than two times higher than in the InF3G-Yb-Nd-Er sample. The effective energy transfer (η) between Nd3+- Yb3+ (η = 45 %) and Yb3+-Er3+ (η = 68 %), was reflected in the emission observed in the NIR region mainly, ascribed to Yb3+:2F5/2 → 2F7/2 (978 and 999 nm) and Nd3+:4F3/2 → 4I9/2 (1053 nm) transitions. Meanwhile, the samples co-doped with Tm3+ exhibited a strong dependence on Yb-Nd-Tm co-doping. Samples without Yb and Nd did not exhibit any UC emission due to the absence of pumping channel. This contrasts with the downshifting NIR emission, which was at least two times higher than those exhibited in samples co-doped Yb-Nd-Er. These results suggest that Tm3+ plays a crucial role in populating the lower-lying exited levels of Yb and Nd, influencing the overall emission behavior.
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