![]() ![]() Polymeric biomaterials for biophotonic applications. Shan D., Gerhard E., Zhang C., Tierney J.W., Xie D., Liu Z., Yang J. It is remembered for a Piedmontese victory over an army composed of foreign volunteers defending the Papal States, on September 18, 1860. Glucose-Sensitive Hydrogel Optical Fibers Functionalized with Phenylboronic Acid. Castelfidardo (Marche) Panoramic view of Castelfidardo Castelfidardo is a town in the province of Ancona, in the Marche region of central-eastern Italy. Yetisen A.K., Jiang N., Fallahi A., Montelongo Y., Ruiz-Esparza G.U., Tamayol A., Zhang Y.S., Mahmood I., Yang S.-A., Kim K.S., et al. Light-guiding hydrogels for cell-based sensing and optogenetic synthesis in vivo. ![]() In vivo wireless photonic photodynamic therapy. We close our review with a summary and an outline of the applications that may benefit from these novel optical waveguides.īiomedical materials fiber fabrication optical polymers polymer optical fibers.ĭeisseroth K. This prompted us to investigate the essential properties of these biomaterials, in view of fabricating optical fibers, and in particular to look into the issues related to fabrication techniques, and also to discuss the challenges in the use and operation of these optical fibers. Whilst several reviews that focus on the chemical properties of the biomaterials from which these optical waveguides can be made have been published, a systematic review about the actual optical fibers made from these materials and the different fabrication processes is not available yet. This article reviews the state-of-the-art in the development of biocompatible and biodegradable optical fibers. In the last decade, various optically transparent biomaterials, as well as different fabrication techniques, have been investigated for this purpose, and in view of obtaining fully fledged optical fibers. Optical fibers and waveguides that are made from biocompatible and biodegradable materials offer a straightforward but effective approach to overcome this issue. The limited penetration depth of visible light in biological tissues has encouraged researchers to develop novel implantable light-guiding devices. ![]()
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