Visible-to-UV/Violet Upconversion Dynamics in Er3+-Doped Oxyfluoride Nanoscale Glass Ceramics

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Abstract

Visible-to-UV/violet upconversion luminescence is found and studied in oxyfluoride glass ceramics with Er3+ dopant concentrations of 3.5, 6.0, or 12.0 mol%, covering a broad pump-power range. The glass ceramics with doping levels of 3.5 and 6.0 mol% show the strongest upconversion luminescence intensity when compared to both higher doping levels and the respective precursor glasses. A comprehensive analysis of the involved upconversion mechanisms is presented. These materials could be useful to enhance the efficiency of the water-splitting systems by using UV/violet light upconverted from the green and red parts of the solar spectrum, which are an alternative to photovoltaic solar cells.

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