Abstract
BaFCl:Eu,Tb nanocrystals were synthesized via hot-injection thermolysis of metal chlorodifluoroacetates and their luminescence response characterized between 80 and 430 K. Though unintended, partial reduction of Eu3+ to Eu2+ occurred during the synthesis stage, leading to luminescent nanocrystals coactivated by Eu2+, Eu3+, and Tb3+. Their emission was dominated by Eu2+, specifically by radiative transitions 4f7 (6P7/2) → 4f7 (8S7/2) and 4f65d1 (lowest level) → 4f7 (8S7/2). Owing to the thermal coupling between 4f7 (6P7/2) and 4f65d1 (lowest) levels, line-like emission from this manifold at 80 K evolved into band-like emission at 430 K. The change in the shape of the emission profile of Eu2+ was used to demonstrate that BaFCl:Eu,Tb may serve to realize bandshape luminescence thermometry as a more straightforward alternative to the usual ratiometric approach. The energy gap between 4f7 (6P7/2) and 4f65d1 (lowest) levels and their radiative transition probabilities were estimated from time-resolved variable-temperature decays.
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