Wu Wenbing, Battie Yann, Lemaire Vincent, Decher Gero, Pauly Matthias
Université de Strasbourg, CNRS, Institut Charles Sadron UPR22, 67000 Strasbourg, France.
Université de Lorraine, LCP-A2MC, 57000 Metz, France.
Nano Lett. 2021 Oct 13;21(19):8298-8303. doi: 10.1021/acs.nanolett.1c02812. Epub 2021 Sep 21.
The optical properties of chiral plasmonic metasurfaces depend strongly on their architecture, in particular the orientation and spacing between the individual building blocks assembled into large arrays. However, methods to obtain chiral metamaterials with fully tunable chiroptical properties in the UV, visible, and near-infrared range are scarce. Here, we show that the chiroptical properties of silver nanowires assembled in helical nanostructures by grazing incidence spraying and Layer-by-Layer assembly can be finely tuned over a broad wavelength range using simple design principles. The angle between the oriented nanowire layers controls the intensity of the circular dichroism, reaching ellipticity values higher than 13° and -factor values up to 1.6, while the shape of the circular dichroism spectra depends strongly on the spacing between the layers which can be tuned at the nanometer scale. The structure-dependent optical properties of the assembly are successfully modeled using a transfer matrix approach.
手性等离子体超表面的光学性质强烈依赖于其结构,特别是组装成大阵列的各个构建块之间的取向和间距。然而,在紫外、可见光和近红外范围内获得具有完全可调手性光学性质的手性超材料的方法却很少。在此,我们表明,通过掠入射喷涂和逐层组装在螺旋纳米结构中组装的银纳米线的手性光学性质,可以使用简单的设计原理在很宽的波长范围内进行精细调节。取向纳米线层之间的角度控制圆二色性的强度,椭圆率值高于13°,g因子值高达1.6,而圆二色性光谱的形状强烈依赖于层间间距,该间距可在纳米尺度上进行调节。使用转移矩阵方法成功地对组件的结构相关光学性质进行了建模。
