激光与光电子学进展, 2019, 56 (17): 170613, 网络出版: 2019-09-05
基于石墨烯的光纤功能化传感器件和激光器件 下载: 2621次特邀综述
Graphene-Based Fiber Functional Sensors and Laser Devices
摘要
石墨烯材料的发展将光电子学、微纳米技术和材料物理学紧密联系在一起。作为一种柔性薄膜,石墨烯材料在光纤光波导平台上的组装更加方便。近年来,基于石墨烯的光纤功能器件以其丰富的功能推动着光电子学科的发展。重点关注当前广泛应用的传感、激光和非线性器件,介绍了石墨烯及其相关材料的制备工艺和与光纤结合的方法。通过对国内外相关研究成果的综述,充分展现了石墨烯光纤器件的性能和应用优势。
Abstract
The functionalized graphene materials link optoelectronics, micro- and nano-technology, and material physics; further, these materials exhibit good integration capability with fibers and waveguides because of their atomically thin nature. The recent development of optoelectronics has been driven by the graphene-based fiber functional devices. This study focuses on the extensively used sensors, lasers, and nonlinear devices and briefly introduces the fabrication of graphene and related materials along with the implementations of the fiber/waveguide structures. Furthermore, we demonstrate the advantages of graphene-based fiber devices based on their performances and applications by reviewing the relevant research results.
谭腾, 袁中野, 陈远富, 姚佰承. 基于石墨烯的光纤功能化传感器件和激光器件[J]. 激光与光电子学进展, 2019, 56(17): 170613. Teng Tan, Zhongye Yuan, Yuanfu Chen, Baicheng Yao. Graphene-Based Fiber Functional Sensors and Laser Devices[J]. Laser & Optoelectronics Progress, 2019, 56(17): 170613.