Bi-functional NaBiF4: Er3+, Tm3+ nanoparticles for optical thermometry and anti-counterfeiting applications

Very recently, NaBiF4 based hosts have evoked considerable interest due to a series of unique advantages. However, the current synthesis methods employed ethylene glycol (EG) as the solvent, which may cause the surrounding-related pollution problems due to the toxicity of EG solvent. Herein, we presented a green, efficient, and environmentally friendly approach to obtain NaBiF4 NPs matrix in the solvent of ethanol substituting the toxic EG. A series of NaBiF4: 0.2Er(3+), xTm(3+) (x = 0, 0.01, 0.02, 0.04, 0.2) nanoparticles (NPs) were successfully prepared. The obtained NPs exhibit tunable colors from green to red with the increasing of Tm3+ concentration. Furthermore, take the NaBiF4: 0.2Er(3+), 0.02Tm(3+) compound as an example, the temperature sensing performance was investigated ranging from 298 to 478 K. Not only a high S-a (1.53%) but also superior S-r (1.31%) are simultaneously obtained at 298 K, providing an ideal optical temperature sensor. Meanwhile, to expand the applications, the anti-counterfeiting properties were studied on different substrates. The results show our green synthesis route is feasible and NaBiF4: 0.2Er(3+), xTm(3+) phosphor has high potential in the optical temperature sensors and anti-counterfeiting applications.

Automated summary

A recent study presented a green and efficient method to synthesize NaBiF4 nanoparticles with tunable colors, demonstrating potential for optical temperature sensors and anti-counterfeiting applications. The nanoparticles showed adjustable colors and ideal temperature sensing performance, making them promising for various applications.