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基于人工微结构的大面积高效率近红外吸收器
Large-area high-performance near-infrared absorber based on plasmonic nanostructures
【摘要】 基于人工微结构超材料的先进理念,设计制备工作波长可调的近红外大面积吸收器.器件制备采用纳米微球化学自组装方法制备顶层金属微结构,该方法可制备大面积样品.实验结果显示,吸收器在近红外波段峰值吸收率超过99%,吸收波长可以通过结构单元几何尺寸调节.理论模拟结果不但与实验测量的数据相一致,而且很好地阐述了器件高效光吸收的物理机理.
【Abstract】 A large-area high-performance near-infrared absorber based on plasmonic nanostructures is introduced,fabricated and experimentally characterized.The periodic plasmonic nanostructures are prepared by self-assembled template,a charming low-cost technology for making large-area samples.Experimental results showthat the absorbance can be as high as 99%.The spectral position of the absorption peak is experimentally demonstrated to be tuned by the geometric dimensions.The physical origin of the absorption effect is theoretically explained as well.
【关键词】 吸收器;
微结构;
大面积;
高效;
近红外;
【Key words】 perfect absorber; plasmonic nanostructures; large area; high performance; near infrared;
【Key words】 perfect absorber; plasmonic nanostructures; large area; high performance; near infrared;
【基金】 国家自然科学基金(61471345);上海市“科技创新行动计划”(14PJ1409500)~~
- 【文献出处】 红外与毫米波学报 ,Journal of Infrared and Millimeter Waves , 编辑部邮箱 ,2018年06期
- 【分类号】TN215
- 【下载频次】165