2023
DOI: 10.1039/d3tc01206a
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Hydrogel-integrated optical fiber sensors and their applications: a comprehensive review

Abstract: Hydrogel-integrated optical fiber sensors have garnered momentous interest due to their optical properties, biocompatibility, and biodegradability. Integrating active materials with hydrogels facilitates them to be employed as a smart material...

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Cited by 15 publications
(6 citation statements)
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References 371 publications
(613 reference statements)
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“…The demands on biomaterials for optical purposes are numerous, calling for characteristics such as biocompatibility and appropriate chemical and mechanical properties, while necessitating optimal material-light interactions. While there are several natural materials have met these criteria as described in the previous section, there is also an expansive range of synthetic materials that offer the added benefits such as better mechanical properties, extensive functional techniques, and reproducibility [ [104] , [105] , [106] ]. As such, various synthetic polymers have found their places as important candidates in this area ( Fig.…”
Section: Optical Hydrogelsmentioning
confidence: 99%
“…The demands on biomaterials for optical purposes are numerous, calling for characteristics such as biocompatibility and appropriate chemical and mechanical properties, while necessitating optimal material-light interactions. While there are several natural materials have met these criteria as described in the previous section, there is also an expansive range of synthetic materials that offer the added benefits such as better mechanical properties, extensive functional techniques, and reproducibility [ [104] , [105] , [106] ]. As such, various synthetic polymers have found their places as important candidates in this area ( Fig.…”
Section: Optical Hydrogelsmentioning
confidence: 99%
“…A key focus on the development of bio-mimetics and photo-responsive fiber fields is integrating gel fibers with optical properties such as luminescence and optical waveguides. [260][261][262][263] However, traditional gel optical-fibers (OGFs) typically utilize unsustainable components and manufacturing processes. Moreover, the conventional luminescent nanomaterials are prone to cytotoxic, photobleaching, and oxidation.…”
Section: Optical Gel Fibersmentioning
confidence: 99%
“…Surface modification techniques, such as plasma treatment or chemical etching, can be used to alter the surface properties of the vinyl polymer. [ 49 ] Plasma treatment involves subjecting the lens surface to low‐temperature plasma, which creates reactive species that can chemically modify the surface. [ 50 ] This process can increase surface hydrophilicity, improve wettability, and reduce the propensity for protein and lipid adhesion.…”
Section: Manufacturing Techniques For Vinyl Polymer‐based Contact Lensesmentioning
confidence: 99%