材料科学
二向色玻璃
喷墨打印
结构着色
硅
墨水池
纳米颗粒
彩色滤光片阵列
反射(计算机编程)
光电子学
纳米技术
镜面反射
光学
传输(电信)
晶体硅
反射率
全彩
粒子(生态学)
光学材料
薄膜
蒙特卡罗方法
作者
Hiroto Yamana,Haruki Tanaka,Hiroshi Sugimoto,Minoru Fujii
标识
DOI:10.1002/adma.202523036
摘要
Inkjet printing of silicon nanoparticle (Si NP) inks and their inherent color asymmetry in reflection and transmission is demonstrated. The optical response of Si NP-dispersed films was initially analyzed using Monte Carlo simulations, which elucidated the physical origin of the asymmetric color appearance. Guided by these theoretical insights, water-based Si NP inks incorporating an acrylic resin were formulated and applied to inkjet printing. The printed films exhibited vivid structural colors with pronounced differences between their reflective and transmissive hues. Furthermore, multicolor patterns with tunable optical asymmetry were produced by employing Si NPs of different diameters. These results highlight the potential of Si NPs as scalable structural-color pigments for multicolor dichroic decorations in applications such as art, anti-counterfeiting, and semitransparent smart windows.
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