Advanced optical waveguide design via encapsulation of 2,4,6-triphenylpyrylium chloride in oxide glasses
Eleni Agapaki, Ioannis Konidakis, Egor Evlyukhin, Klytaimnistra Katsara, Georgios Kenanakis, David King, Haesook Han, Pradip K. Bhowmik, Emmanuel Stratakis

TL;DR
A new method encapsulates a pyrylium salt in oxide glasses to create advanced optical waveguides with enhanced light transmission.
Contribution
A low-temperature post-melting encapsulation method for integrating pyrylium salts into oxide glasses with silver nanoparticles is introduced.
Findings
Encapsulated pyrylium salt retains structural and optical properties within the glass matrix.
Silver nanoparticles enhance light transmission through scattering effects.
The composite material shows robust waveguiding characteristics suitable for optoelectronic devices.
Abstract
Pyrylium ion (C5H5O+)-based salts exhibit distinctive optical properties that can be tuned by external stimuli such as temperature and pressure, making them suitable materials for various nanoscale optoelectronic applications. However, their practical use has been limited by their solid powder form, which poses challenges for integration into realistic devices. Herein, we present a low-temperature, post-melting encapsulation method for the incorporation of a 2,4,6-triphenylpyrylium chloride salt within transparent phosphate glasses containing dispersed silver nanoparticles. This synthesis approach enables spatially controlled vitrification of high-refractive index pyrylium pathways within the glass matrix. The encapsulated salt retains its structural and optical properties, while the presence of randomly dispersed silver nanoparticles enhances light transmission upon scattering effects.…
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Taxonomy
TopicsSemiconductor Lasers and Optical Devices · Photonic and Optical Devices · Glass properties and applications
