Sreekanth Kandammathe Valiyaveedu, Jana Sambhu, ElKabbash Mohamed, Singh Ranjan, Teng Jinghua
Institute of Materials Research and Engineering (IMRE), Agency for Science, Technology, and Research (A*STAR), 2 Fusionopolis Way, Singapore 138634, Republic of Singapore.
Division of Physics and Applied Physics, School of Physical and Mathematical Sciences, Nanyang Technological University, 21 Nanyang Link, Singapore 637371, Republic of Singapore.
Nanophotonics. 2024 Jan 17;13(12):2075-2088. doi: 10.1515/nanoph-2023-0723. eCollection 2024 May.
Thin-film coatings offer a scalable optical platform, as compared to nanopatterned films, for various applications including structural coloring, photovoltaics, and sensing. Recently, Fano resonant optical coatings (FROCs) have gained attention. FROCs consist of coupled thin film nanocavities composed of a broadband and a narrowband optical absorber. The optical properties of FROCs can be dynamically adjusted using chalcogenide phase change materials (PCM). Switching the structural states of PCM layers in the cavity between amorphous and crystalline states, the Fano resonance supported by FROC can be modulated in terms of resonance wavelength, intensity, and bandwidth. This review discusses the scientific and technological facets of both passive and active FROCs for applications in structural coloring and spectrum-splitting filters. We explore electrically tunable FROCs for dynamic color generation and optical steganography. Furthermore, we discuss the utilization of passive and active FROCs as spectrum-splitting filters to mitigate the drop in photovoltaic efficiency of solar cells due to heating and for hybrid thermal-electric power generation.
与纳米图案化薄膜相比,薄膜涂层为包括结构着色、光伏和传感在内的各种应用提供了一个可扩展的光学平台。最近,法诺共振光学涂层(FROCs)受到了关注。FROCs由耦合的薄膜纳米腔组成,这些纳米腔由宽带和窄带光学吸收体构成。FROCs的光学特性可以使用硫族化物相变材料(PCM)进行动态调整。通过在腔内将PCM层的结构状态在非晶态和晶态之间切换,FROC所支持的法诺共振可以在共振波长、强度和带宽方面进行调制。本文综述讨论了用于结构着色和光谱分离滤波器应用的被动和主动FROCs的科学技术方面。我们探索用于动态颜色生成和光学隐写术的电可调FROCs。此外,我们讨论了将被动和主动FROCs用作光谱分离滤波器,以减轻太阳能电池因加热导致的光伏效率下降,并用于混合热电发电。
