Strategies for sensitivity improvement of localized surface plasmon resonance sensors: experimental and mathematical approaches in plasmonic gold nanostructures

IF 5.4 2区 化学 Q1 INSTRUMENTS & INSTRUMENTATION Applied Spectroscopy Reviews Pub Date : 2022-07-26 DOI:10.1080/05704928.2022.2104864
J. Ha
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引用次数: 3

Abstract

Abstract Localized surface plasmon resonance (LSPR) sensors using metallic nanoparticles are extensively used for refractive index (RI) measurements in chemical and biological studies, and their sensitivity is highly influenced by the material and structure of the nanoparticle. Despite the great advantages of LSPR sensors using frequency shifts, there are still major challenges in terms of detection sensitivity as well as the broadening and asymmetry of LSPR peaks. This article provides a general background of the fundamentals of LSPR and RI-based LSPR sensing. Thereafter, recent advances in the improvement of LSPR sensitivity are discussed in the viewpoints of two experimental and mathematical approaches. The experimental approaches, including the fabrication of plasmonic array nanostructures with high uniformity and site-selective immobilization, are briefly discussed. Later, we discuss recent studies using a simple mathematical approach with LSPR inflection point to improve the RI sensitivity in gold nanoparticles with different shapes, sizes, shells, etc.
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提高局域表面等离子体共振传感器灵敏度的策略:等离子体金纳米结构的实验和数学方法
金属纳米粒子局部表面等离子体共振(LSPR)传感器广泛用于化学和生物学研究中的折射率测量,其灵敏度受纳米粒子的材料和结构的高度影响。尽管采用移频的LSPR传感器具有很大的优势,但在检测灵敏度以及LSPR峰的加宽和不对称性方面仍然存在重大挑战。本文提供了LSPR和基于ri的LSPR传感基本原理的一般背景。然后,从实验和数学两方面讨论了近年来在提高LSPR灵敏度方面的研究进展。简要讨论了高均匀性等离子体阵列纳米结构的制备和位置选择性固定的实验方法。随后,我们讨论了利用LSPR拐点的简单数学方法来提高不同形状、尺寸、壳层等金纳米颗粒的RI灵敏度的最新研究。
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来源期刊
Applied Spectroscopy Reviews
Applied Spectroscopy Reviews 工程技术-光谱学
CiteScore
13.80
自引率
1.60%
发文量
23
审稿时长
1 months
期刊介绍: Applied Spectroscopy Reviews provides the latest information on the principles, methods, and applications of all the diverse branches of spectroscopy, from X-ray, infrared, Raman, atomic absorption, and ESR to microwave, mass, NQR, NMR, and ICP. This international, single-source journal presents discussions that relate physical concepts to chemical applications for chemists, physicists, and other scientists using spectroscopic techniques.
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