Fabrication of Er3+:YAlO3 fibers by electrospinning method for upconversion luminescence applications

This study aimed to prepare YAlO3 fibers doped with 2 mol% Er3+ using electrospinning and a carbon-free sol system as the precursor. X-ray diffraction, thermal gravimetry and differential thermal analysis, and Fourier transform infrared were employed to characterize the thermal behavior and crystallization process of the precursor fibers. Scanning electron microscope analysis showed that the Er3+:YAlO3 fibers had a uniform diameter of 1 mu m, a dense and crack-free surface, and a non-porous cross-section. Upon excitation at 450 and 488 nm, upconverted luminescence spectra were obtained from the Er3+:YAlO3 fibers. This observation indicates their potential as upconversion luminescent agents capable of converting visible light into ultraviolet light. These properties make the Er3+:YAlO3 fibers promising candidates for various upconversion luminescence applications.

Automated summary

YAlO3 fibers doped with 2 mol% Er3+ were prepared using electrospinning and a carbon-free sol system as the precursor. The thermal behavior and crystallization process of the precursor fibers were characterized. The Er3+:YAlO3 fibers exhibited uniform diameter, dense surface, and non-porous cross-section, and could generate upconverted luminescence upon excitation.