Ultrasensitive Chip-Liquid Chromatography Analytical Tool for Quantification-A Review

Asian Journal of Applied Chemistry Research Pub Date : 2023-05-26 DOI:10.9734/ajacr/2023/v13i4249

K. Bhavyasri, G. Srija, M. Sumakanth

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Abstract

Introduction: Chip liquid chromatography (LC) is a form of liquid chromatography (LC) that has been scaled down to suit a microchip for quick, high-throughput analysis with tiny sample volumes and minimal reagent usage. The term also goes by To date, four distinct on-chip LC strategies have been created. These strategies make use of columns that are open-tubular, packed-particle, monolithic, and pillar array. Applications: This technique is used to analyze small compounds and medications in a variety of biological materials, as well as for proteomics. High quantities of other endogenous chemicals that may cause interference are present alongside these biological compounds, which are only present in tiny levels. LC miniaturization offers a solution to such problems. Advantage: On-a-chip operations like sampling, sample transfer, separation, and identification are carried out. Sample preparation is the most challenging task at the micro level and is an important component of most analytical techniques, particularly in bioanalysis. One of the crucial steps in liquid chromatography is separation. Sensitive detection methods such as laser-induced fluorescence microscopy and mass spectrometry are being used.

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超灵敏芯片-液相色谱定量分析工具综述

芯片液相色谱(LC)是液相色谱(LC)的一种形式，它已经缩小到适合微芯片的快速，高通量分析，样品体积小，试剂用量少。迄今为止，已经创建了四种不同的片上LC策略。这些策略利用了开管柱、填充颗粒柱、整体柱和柱阵列柱。应用:该技术用于分析各种生物材料中的小化合物和药物，以及蛋白质组学。大量其他可能引起干扰的内源性化学物质与这些生物化合物一起存在，而这些生物化合物仅以微小的水平存在。LC小型化为这些问题提供了解决方案。优点:片上操作，如采样，样品转移，分离和鉴定进行。样品制备是微观层面上最具挑战性的任务，是大多数分析技术的重要组成部分，特别是在生物分析中。液相色谱法的关键步骤之一是分离。目前正在使用激光诱导荧光显微镜和质谱法等灵敏的检测方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Asian Journal of Applied Chemistry Research

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