无标签光学显微镜表征介电纳米粒子

Berenice Garcia Rodriguez, Erik Olsén, Fredrik Skärberg, Giovanni Volpe, Fredrik Höök, Daniel Sundås Midtvedt
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引用次数: 0

摘要

为了将纳米粒子的特性与功能联系起来,需要对纳米粒子进行快速而详细的表征。在过去的几十年里,利用光学显微镜技术表征纳米粒子样品的能力有了显著提高;因此,现在有许多显微镜方法可用于详细表征纳米尺寸的粒子。相反,由于现有技术的检测限不同,提供的定量信息相关但不同,因此需要根据手头的样品选择和调整测量和分析方法。在本教程中,我们将回顾单颗粒散射的光学理论及其与常用显微镜技术所获得的颗粒定量信息的差异和相似性之间的关系,重点是纳米(亚微米)大小的电介质颗粒。我们特别强调了光学信号与被检测粒子的质量、尺寸、结构和材料特性的关系,以及光学信号与基于扩散性的粒子尺寸测定的结合。我们还讨论了新技术发展带来的新机遇,目的是根据与不同类型纳米粒子样品和相关分析需求有关的各种挑战来指导测量策略的选择。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optical Label-Free Microscopy Characterization of Dielectric Nanoparticles
In order to relate nanoparticle properties to function, fast and detailed particle characterization, is needed. The ability to characterize nanoparticle samples using optical microscopy techniques has drastically improved over the past few decades; consequently, there are now numerous microscopy methods available for detailed characterization of particles with nanometric size. However, there is currently no ``one size fits all'' solution to the problem of nanoparticle characterization. Instead, since the available techniques have different detection limits and deliver related but different quantitative information, the measurement and analysis approaches need to be selected and adapted for the sample at hand. In this tutorial, we review the optical theory of single particle scattering and how it relates to the differences and similarities in the quantitative particle information obtained from commonly used microscopy techniques, with an emphasis on nanometric (submicron) sized dielectric particles. Particular emphasis is placed on how the optical signal relates to mass, size, structure, and material properties of the detected particles and to its combination with diffusivity-based particle sizing. We also discuss emerging opportunities in the wake of new technology development, with the ambition to guide the choice of measurement strategy based on various challenges related to different types of nanoparticle samples and associated analytical demands.
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