持续暴露于有毒污染物凸显了对灵敏检测技术的需求，这些技术可以在当今世界快速应用，以快速筛选真实样本。双酚A（BPA）是最常见的环境污染物之一，它有可能危害环境和人类健康，特别是导致生殖障碍、癌症、心脏病、不孕不育、精神障碍等。因此，它受到人们的高度重视。致力于双酚 A 和微塑料的检测，以促进可持续地球上的食品安全、环境健康和人类健康。在当前的技术中，基于微流体的系统作为未来医疗保健应用的诊断工具引起了广泛的关注。微流控装置可用于快速筛查和实时监测，具有便携性、小型化、高度传感工具以及易于与各种检测系统集成等固有优势。光学和电化学传感器是几乎所有基于微流体的超灵敏 BPA 和微塑料测定设备中的两种主要分析工具。在这篇综述中，我们评估并讨论了基于微流体的 BPA 和微塑料检测方法。版权所有 © 2023。由 Elsevier Inc. 出版。

Continuous exposure to toxic pollutants highlights the need for sensitive detection technologies that can be rapidly applied in the current world for quick screening of real samples. Bisphenol A (BPA) is one of the most common environmental contaminants, and it has the potential to harm both the environment and human health, notably causing reproductive disorders, cancer, heart disease, infertility, mental disorders, etc. Thus, significant attention has been paid to the detection of BPA and microplastics to promote food safety, environmental health, and human health on a sustainable earth. Among the current technologies, microfluidic based systems have garnered a lot of interest as future diagnostic tools for healthcare applications. Microfluidic devices can be deployed for quick screening and real-time monitoring, with inherent advantages like portability, miniaturisation, highly sensing tool and ease of integration with various detection systems. Optical and electrochemical sensors are two major analytical tools found in almost all microfluidic-based devices for ultrasensitive BPA and microplastics determination. In this review, we have evaluated and discussed microfluidic-based detection methods for BPA and microplastics.Copyright © 2023. Published by Elsevier Inc.