Optimization of the Pechini-derived synthesis of rare-earth free aluminum borate phosphors presenting tunable white emission

Abstract: The present study is dedicated to the development of aluminum borate luminescent powders which appear as promising and more environmental-friendly than conventional phosphors. The different steps of the luminescent powder synthesis, in particular the precursors (inorganic and organic) ratios and calcination conditions, are adjusted by studying the resulting optical features to get a broader and warmer white emission. As shown in previous works, the photoluminescence emission originates from polyaromatic hydroc… Show more

“…Indeed, associated with a blue or UV chip, they allow a colored or white light-emitting diode (LED) to be obtained. − The development and use of luminescent compounds containing rare-earth (RE) elements (europium, cerium, yttrium, etc.) is currently predominant. − However, economic and environmental issues resulting from the exploitation of these RE elements − have made it a matter of concern for the European Union, thus encouraging the development of phosphors using other elements. ,− Employing an organic luminescent dye such as Sulforhodamine B (SRB) is a good alternative. This molecule of the Xanthene family, mostly studied in aqueous solution, is mainly used in anticancer drug development , and watercourse mapping , or even offered to the general public to color tattoos. , Its availability, low price, and nontoxicity and above all its strong red-orange emission (590 nm under green excitation in an aqueous diluted solution) make it a molecule of choice for the development of RE-free phosphors.…”

Efficient Dispersion of Organic Fluorophores by Size Matching with a Difunctionalized Spacer Interleaved into Layered Double Hydroxide

“…Indeed, associated with a blue or UV chip, they allow a colored or white light-emitting diode (LED) to be obtained. − The development and use of luminescent compounds containing rare-earth (RE) elements (europium, cerium, yttrium, etc.) is currently predominant. − However, economic and environmental issues resulting from the exploitation of these RE elements − have made it a matter of concern for the European Union, thus encouraging the development of phosphors using other elements. ,− Employing an organic luminescent dye such as Sulforhodamine B (SRB) is a good alternative. This molecule of the Xanthene family, mostly studied in aqueous solution, is mainly used in anticancer drug development , and watercourse mapping , or even offered to the general public to color tattoos. , Its availability, low price, and nontoxicity and above all its strong red-orange emission (590 nm under green excitation in an aqueous diluted solution) make it a molecule of choice for the development of RE-free phosphors.…”

Efficient Dispersion of Organic Fluorophores by Size Matching with a Difunctionalized Spacer Interleaved into Layered Double Hydroxide

“…The development and use of luminescent compounds containing rare-earth (RE) elements (europium, cerium, yttrium…) is currently predominant [2][3][4][5][6][7]. However, economic and environmental issues resulting from the exploitation of these RE elements [8][9][10][11] have made it a matter of concern for the European Union [12], thus encouraging the development of phosphors using other elements [2,[13][14][15]. To employ an organic luminescent dye such as Sulforhodamine B (SRB) is a good alternative.…”

Efficient dispersion of organic fluorophores by size matching with a new di-functionalized spacer interleaved into layered double hydoxide