Recent Advancements in Nanophotonics for Optofluidics.

IF 7.7 2区 物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY Advances in Physics: X Pub Date : 2024-01-01 Epub Date: 2024-10-22 DOI:10.1080/23746149.2024.2416178
Sen Yang, Chuchuan Hong, Guodong Zhu, Theodore Anyika, Ikjun Hong, Justus C Ndukaife
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Abstract

Optofluidics is dedicated to achieving integrated control of particle and fluid motion, particularly on the micrometer scale, by utilizing light to direct fluid flow and particle motion. The field has seen significant growth recently, driven by the concerted efforts of researchers across various scientific disciplines, notably for its successful applications in biomedical science. In this review, we explore a range of optofluidic architectures developed over the past decade, with a primary focus on mechanisms for precise control of micro and nanoscale biological objects and their applications in sensing. Regarding nanoparticle manipulation, we delve into mechanisms based on optical nanotweezers using nanolocalized light fields and light-based hybrid effects with dramatically improved performance and capabilities. In the context of sensing, we emphasize those works that used optofluidics to aggregate molecules or particles to promote sensing and detection. Additionally, we highlight emerging research directions, encompassing both fundamental principles and practical applications in the field.

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光流体纳米光子学的最新进展。
光流体技术致力于利用光来引导流体流动和粒子运动,从而实现对粒子和流体运动的综合控制,特别是在微米尺度上。在各学科研究人员的共同努力下,该领域近来取得了长足的发展,尤其是在生物医学领域的成功应用。在这篇综述中,我们将探讨过去十年间开发的一系列光流体架构,主要关注微米和纳米级生物物体的精确控制机制及其在传感领域的应用。在纳米粒子操纵方面,我们深入研究了基于光学纳米镊子的机制,利用纳米定位光场和基于光的混合效应,显著提高了性能和能力。在传感方面,我们强调那些利用光流体技术聚合分子或粒子以促进传感和检测的研究成果。此外,我们还强调了新兴的研究方向,包括该领域的基本原理和实际应用。
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来源期刊
Advances in Physics: X
Advances in Physics: X Physics and Astronomy-General Physics and Astronomy
CiteScore
13.60
自引率
0.00%
发文量
37
审稿时长
13 weeks
期刊介绍: Advances in Physics: X is a fully open-access journal that promotes the centrality of physics and physical measurement to modern science and technology. Advances in Physics: X aims to demonstrate the interconnectivity of physics, meaning the intellectual relationships that exist between one branch of physics and another, as well as the influence of physics across (hence the “X”) traditional boundaries into other disciplines including: Chemistry Materials Science Engineering Biology Medicine
期刊最新文献
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