Effect of polymeric dye network bonding on fluorescence thermometry for optical fiber temperature sensor

Abstract: Fluorescein and two of its derivatives (allyl Fluorescein and diallyl Fluorescein) are solidified in glycidyl methacrylate (GMA) polymer matrix for the development of fluorescence-based fiber optically temperature sensor. These two Fluorescein derivatives were investigated in order to study the influence of degree of covalent bonds to GMA polymer backbone on Fluorescein dye sensitivity for temperature changes. The dye-polymer discs have been investigated separately in order to determine their sensitivities in … Show more

“…The fluorescence intensity peaks of allyl fluorescein dye in GMA polymer decreased slightly while warming up, while the fluorescence intensity peaks of diallyl fluorescein dye in GMA polymer showed a gradual decrease with sudden changes at specific temperatures. Above room temperature, the fluorescence intensity peaks decreased with rising temperature [96].…”

“…FF probes are highly sensitive and have been used for a variety of applications, including environmental surveillance, medical diagnostics, and chemical sensing. Researchers developed a fluorescence-based fiber-optic temperature sensor by solidifying fluorescein and two of its derivatives, allyl fluorescein and diallyl fluorescein, in a GMA polymer matrix [96]. The sensitivity of the fluorescein dye to temperature changes was studied by investigating the two fluorescein derivatives separately, and their sensitivities were determined in different temperature ranges.…”

A Concise Review of the Progress in Photonic Sensing Devices

“…The fluorescence intensity peaks of allyl fluorescein dye in GMA polymer decreased slightly while warming up, while the fluorescence intensity peaks of diallyl fluorescein dye in GMA polymer showed a gradual decrease with sudden changes at specific temperatures. Above room temperature, the fluorescence intensity peaks decreased with rising temperature [96].…”

“…FF probes are highly sensitive and have been used for a variety of applications, including environmental surveillance, medical diagnostics, and chemical sensing. Researchers developed a fluorescence-based fiber-optic temperature sensor by solidifying fluorescein and two of its derivatives, allyl fluorescein and diallyl fluorescein, in a GMA polymer matrix [96]. The sensitivity of the fluorescein dye to temperature changes was studied by investigating the two fluorescein derivatives separately, and their sensitivities were determined in different temperature ranges.…”

A Concise Review of the Progress in Photonic Sensing Devices