Characterization of porosity in periodic 3D nanostructures using spectroscopic scatterometry

Kwon Sang Lee, Kun-Chieh Chien, Barbara Groh, I-Te Chen, Michael Cullinan, Chih-Hao Chang
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Abstract

Periodic nanostructures have important applications in nanophotonics and nanostructured materials as they provide various properties that are advantageous compared to conventional solid materials. However, there is a lack of metrology techniques that are suitable for large-scale manufacturing, as the traditional tools used in nanotechnology have limited throughput and depth resolution. In this work, we use spectroscopic scatterometry as a fast and low-cost alternative to characterize the porosity of three-dimensional (3D) periodic nanostructures. In this technique, the broadband reflectance of the structure is measured and fitted with physical models to predict the structure porosity. The process is demonstrated using 3D periodic nanostructures fabricated using colloidal phase lithography at various exposure dosages. The measured reflectance data are compared with an optical model based on finite-difference time-domain and transfer-matrix methods, which show qualitative agreement with the structure porosity. We found that this technique has the potential to further develop into an effective method to effectively predict the porosity of 3D nanostructures and can lead to real-time process control in roll-to-roll nanomanufacturing.
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利用光谱散射法表征周期性三维纳米结构的孔隙度
周期纳米结构在纳米光子学和纳米结构材料中有着重要的应用,因为它们提供了与传统固体材料相比具有优势的各种特性。然而,由于纳米技术中使用的传统工具具有有限的吞吐量和深度分辨率,因此缺乏适合大规模制造的计量技术。在这项工作中,我们使用光谱散射法作为一种快速和低成本的替代方法来表征三维(3D)周期纳米结构的孔隙度。在该技术中,测量结构的宽带反射率并与物理模型拟合以预测结构孔隙度。在不同的曝光剂量下,使用胶体相光刻技术制造的3D周期性纳米结构证明了这一过程。将实测反射率数据与基于时域有限差分法和传递矩阵法的光学模型进行了比较,结果与结构孔隙度基本一致。我们发现该技术有潜力进一步发展成为有效预测三维纳米结构孔隙度的有效方法,并可以实现卷对卷纳米制造的实时过程控制。
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