Hyperspectral Analysis of Enhanced Extinction in Micrometer-Thin Polymer Films containing Nanoparticles at High Volume Fraction.

D Keith Roper
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Abstract

Extinction in thin polymer films containing nanoparticles is important to photovoltaics, sensors, and interconnects. Extinction measured in 1-millimeter-thin films containing plasmonic nanoparticles increased with nanoparticle density to levels higher than predicted. Yet, enhancement of extinction was not measured in <100-nanometer-thin films containing high-density plasmonic nanoparticles. The present study examined extinction in 80 micrometer films that contained plasmonic nanoparticles at increasing volume fractions. Optical images and spectra were integrated in a new hyperspectral method to quantitate visual attributes to use nanoparticle-containing films in e.g., colorimetric assays. Measured extinction was compared with values predicted by the exact Mie solution to Maxwell's equation and by the Maxwell-Garnett effective medium theory. Extinction measured in 80-micron films was found to increase with nanoparticle volume fraction from a low value predicted by Mie theory to a high value predicted by Maxwell-Garnett effective medium theory. Results of the present study are useful to specify the volume fraction of nanoparticles in thin polymer films to obtain desired spectral characteristics for photovoltaics, sensors, interconnects, and colorimetric point-of-care assays.

高体积分数含纳米颗粒的微米级聚合物薄膜增强消光的高光谱分析。
含纳米颗粒的聚合物薄膜中的消光对光伏、传感器和互连非常重要。在含有等离子体纳米粒子的1毫米薄膜中测量的消光随纳米粒子密度的增加而增加,其水平高于预测。然而,灭绝的增强并没有被测量
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