Department of Physics, The Chinese University of Hong Kong, Shatin, Hong Kong SAR, China.
Adv Mater. 2018 Apr;30(16):e1704338. doi: 10.1002/adma.201704338. Epub 2017 Nov 10.
Plasmonic structures exhibit promising applications in high-resolution and durable color generation. Research on advanced hybrid plasmonic materials that allow dynamically reconfigurable color control has developed rapidly in recent years. Some of these results may give rise to practically applicable reflective displays in living colors with high performance and low power consumption. They will attract broad interest from display markets, compared with static plasmonic color printing, for example, in applications such as digital signage, full-color electronic paper, and electronic device screens. In this progress report, the most promising recent examples of utilizing advanced plasmonic materials for the realization of dynamic color display are highlighted and put into perspective. The performances, advantages, and disadvantages of different technologies are discussed, with emphasis placed on both the potential and possible limitations of various hybrid materials for dynamic plasmonic color display.
等离子体结构在高分辨率和持久颜色生成方面具有广阔的应用前景。近年来,人们对允许动态可重构颜色控制的先进混合等离子体材料进行了快速研究。其中一些研究结果可能会产生具有高性能和低功耗的实际应用的反射式显示器,其颜色为生动的活色。与静态等离子体彩色打印相比,它们将吸引显示市场的广泛关注,例如在数字标牌、全彩色电子纸和电子设备屏幕等应用中。在本进展报告中,突出强调并从不同角度介绍了利用先进等离子体材料实现动态彩色显示的最有前途的最新实例。讨论了不同技术的性能、优点和缺点,重点介绍了各种混合材料在动态等离子体彩色显示方面的潜力和可能的局限性。
