Fluorescent Polymers for Sensing and Imaging

doi:10.3390/books978-3-03936-941-6

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Fluorescent Polymers for Sensing and Imaging

Edited by

August 2020

208 pages

ISBN978-3-03936-940-9 (Hardback)
ISBN978-3-03936-941-6 (PDF)

https://doi.org/10.3390/books978-3-03936-941-6

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This book is a reprint of the Special Issue Fluorescent polymers for sensing and imaging that was published in

Chemistry & Materials Science

Engineering

Summary

Nowadays, all scientists recognize that fluorescent probes play important roles in wide research areas, from chemistry to biology. By combining this fact with specific functional benefits from synthetic polymers, fluorescent polymeric probes are occasionally superior to small organic and inorganic fluorescent (or luminescent) probes in terms of sensitivity, robustness, and multiple functionality. The targets of fluorescent polymeric probes have extended from chemical species to physical parameter. This special issue is a platform for researches to develop a novel fluorescent polymeric probe and to establish a new analytical method using a conventional fluorescent polymeric probe. Related researches, e.g., fluorometric investigation of functional polymers, are also included.

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Keywords

radiotherapy eye-phantom; radio-fluorogenic gel; X-ray beam imaging; 3D radiation imaging; polymer gel dosimetry; polymer optical fibers; rhodamine B; solution-doping technique; photostability; optical characterization; penetration of the dopant solution; pickering emulsion; quantum dots; Listeria monocytogenes; ATP detection; fluorescent probe; polythiophene; multisite binding; analyte-induced aggregation; electrochemiluminescence; POSS; ruthenium(II) complex; oxygen resistance; poly(acrylic acid); poly(methacrylic acid); poly(acrylamide derivatives); complexation; fluorescence label technique; FRET; time-resolved photoluminescence; two-step FRET; potassium ion detection; molecularly imprinted polymer; fluorescence magnetic polymer; fluorescence sensing; magnetic FeO_x/ZnS quantum dots; bisphenol A; poly(thioether); ion detection; cell imaging; organosilicone; fluorescence quenching; biocompatibility; immunity; implantable sensors; invertebrate; layer-by-layer; primary cell cultures; Tb-containing polymer; Ru-containing polymer; ratiometric luminescence; nanoprobe; oxygen; fluorescence; imaging; nanogel; temperature; thermometer; thermometry; fluorescence; polymer; particle; sensor; logic gate; pH; ion; temperature; self-quenching; pNIPAM; cross-linked nanoparticles; copper; PA gel; aza-BODIPY; environment-sensitive; polarity-sensitive; near-infrared fluorescence imaging; temperature-sensitive; ultrasound switchable fluorescence probe; Pluronic; F-127; F-96; F-68; thermosensitive; n/a