Author:
Jiang Xiaoxiao,Kong Lu,Ying Yu,Gu Qiongchan,Lv Jiangtao,Dai Zhigao,Si Guangyuan
Abstract
Super-resolution optical imaging is a consistent research hotspot for promoting studies in nanotechnology and biotechnology due to its capability of overcoming the diffraction limit, which is an intrinsic obstacle in pursuing higher resolution for conventional microscopy techniques. In the past few decades, a great number of techniques in this research domain have been theoretically proposed and experimentally demonstrated. Graphene, a special two-dimensional material, has become the most meritorious candidate and attracted incredible attention in high-resolution imaging domain due to its distinctive properties. In this article, the working principle of graphene-assisted imaging devices is summarized, and recent advances of super-resolution optical imaging based on graphene are reviewed for both near-field and far-field applications.
Funder
Natural Science Foundation of Hebei Province
National Natural Science Foundation of China
Fundamental Research Funds for the Central Universities Key Scientific Research Guidance Project
Subject
Clinical Biochemistry,General Medicine
Cited by
4 articles.
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