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柔性有机聚合物光子器件及其生物医学应用 被引量:1

Flexible Organic Polymer Photonic Devices for Biomedical Applications
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摘要 随着光子材料和光子器件在可穿戴技术、智慧医疗、仿生机器人等新兴应用领域的不断拓展,研制具有优异机械柔韧性、生物相容性甚至生物可降解性的光子器件日益重要。为同时实现优异的光学性能和生物力学性能,柔性光子器件从材料合成、结构设计、功能实现到工艺制备等诸多方面亟需探索。其中,有机聚合物因其质地轻柔、生物相容性好、合成可控、结构功能易于改性等优势,被认为是制备柔性光子器件最具竞争力的材料之一。一系列新型的功能性有机光子器件,如光波导、衍射光栅、光子晶体等被相继被报道。本文综述了近年来柔性有机聚合物光子器件的研究进展,总结和分析了现有技术、方法和应用,并对未来的挑战和前景进行了讨论和展望。 With the intense exploration of photonic materials and devices in emerging fields such as wearable techniques,smart healthcare,and biomimetic robotics,developing photonic devices with high flexibility,biocompatibility,and even biodegradability has become critical.To obtain photonic devices with outstanding optical and biomechanical properties,research and development on various aspects,including material synthesis,structural design,function implementation,and device fabrication,are urgent.Organic polymers have been considered to be some of the most competitive materials for flexible photonics due to their soft texture,flexibility,biocompatibility,facile synthesis,and simple modification.A series of novel functional photonic devices such as optical waveguides,diffraction gratings,and photonic crystals,have been developed based on organic polymers.This paper provides a comprehensive review of recent progress on the study of flexible organic polymer photonics.Current techniques,methods,and applications are summarized and analyzed.Perspectives on the future challenges and applications of flexible photonics are also discussed.
作者 郭晶晶 郭校言 脱佳霖 李卓洲 徐立军 Guo Jingjing;Guo Xiaoyan;Tuo Jialin;Li Zhuozhou;Xu Lijun(School of Instrumentation and Optoelectronic Engineering,Beihang University,Beijing 100191,China)
出处 《激光与光电子学进展》 CSCD 北大核心 2023年第13期25-43,共19页 Laser & Optoelectronics Progress
基金 国家自然科学基金(62175008,61805126)。
关键词 柔性光子器件 有机聚合物 生物医学光子学 光学传感 光诊断与治疗 flexible photonic devices organic polymers biomedical photonics optical sensors optical diagnosis and treatment
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