Plasmonic materials and manufacturing methods for rapid and sustainable thermal cycler for PCR

IF 8.1 2区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Materials Today Advances Pub Date : 2023-09-13 DOI:10.1016/j.mtadv.2023.100420
Kiran Shrestha, Seongryeong Kim, Gyoujin Cho
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Abstract

Multiple outbreaks of fatal infectious diseases throughout history have intensified the need for early diagnostic methods to efficiently control their spread. Polymerase chain reaction (PCR)-based diagnosis is a sensitive, accurate, and effective method for detecting infections. However, conventional PCR-based diagnosis is slow and consumes large amounts of energy, primarily because of bulky, power-consuming thermal cyclers. Herein, we review recently published PCR-based diagnostic methods, in which plasmonic light-to-heat conversion-based thermal cyclers replace conventional ones. First, we explain the structures of recently developed rapid plasmonic-based thermal cyclers and review the various materials used. Next, we review the fabrication methods used in recent developments in rapid plasmonic thermal cyclers. Then, we discuss sustainable methods that have been and can be implemented to develop a rapid plasmonic thermal cycler. With this review, the requirements for developing a plasmonic-based sustainable PCR with high speed, accuracy, and sensitivity can be understood to contain future pandemics.

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PCR快速可持续热循环用等离子体材料及制造方法
历史上多次爆发的致命传染病,加强了对早期诊断方法的需求,以有效地控制其传播。基于聚合酶链反应(PCR)的诊断是一种灵敏、准确、有效的检测感染的方法。然而,传统的基于pcr的诊断是缓慢的,并且消耗大量的能量,主要是因为体积庞大,耗电的热循环器。在此,我们回顾了最近发表的基于pcr的诊断方法,其中基于等离子体光热转换的热循环器取代了传统的热循环器。首先,我们解释了最近开发的基于等离子体的快速热循环器的结构,并回顾了所使用的各种材料。其次,我们回顾了近年来在快速等离子体热循环器中使用的制造方法。然后,我们讨论了已经和可以实施的可持续方法来开发快速等离子体热循环器。通过这一综述,可以理解开发基于等离子体的、高速、准确和敏感的可持续PCR的需求,以遏制未来的大流行。
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来源期刊
Materials Today Advances
Materials Today Advances MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
14.30
自引率
2.00%
发文量
116
审稿时长
32 days
期刊介绍: Materials Today Advances is a multi-disciplinary, open access journal that aims to connect different communities within materials science. It covers all aspects of materials science and related disciplines, including fundamental and applied research. The focus is on studies with broad impact that can cross traditional subject boundaries. The journal welcomes the submissions of articles at the forefront of materials science, advancing the field. It is part of the Materials Today family and offers authors rigorous peer review, rapid decisions, and high visibility.
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