Electrospinning of poly(ethylene oxide)/glass hybrid nanofibres for anticounterfeiting encoding

The use of photochromism to increase the credibility of consumer goods has shown great promise. To provide mechanically dependable anticounterfeiting nanofibres, it has also been critical to improve the engineering processes of authentication patterns. Mechanically robust and photoluminescent electrospun poly(ethylene oxide)/glass (PGLS) nanofibres (150–350 nm) immobilized with nanoparticles of lanthanide‐doped aluminate (NLA; 8–15 nm) were developed using electrospinning technology for anticounterfeiting purposes. The provided nanofibrous membranes changed colour from transparent to green when irradiated with ultraviolet light. By delivering NLA with homogeneous distribution without aggregations, we were able to keep the nanofibrous membrane transparent. When excited at 365 nm, NLA@PGLS nanofibres showed an emission intensity at 517 nm. The hydrophobicity of NLA@PGLS nanofibres improved by raising the pigment concentration as the contact angle was increased from 146.4° to 160.3°. After being triggered by ultraviolet light, NLA@PGLS showed quick and reversible photochromism without fatigue. It was shown that the suggested method can be applied to reliably produce various anticounterfeiting materials. Mechanically robust and photoluminescent electrospun poly(ethylene oxide)/glass nanofibres (150–350 nm) immobilized with nanoparticles of lanthanide‐doped aluminate (8–15 nm) were developed for anticounterfeiting applications. The prepared nanofibrous membranes change colour from transparent to green under ultraviolet light.