Flexible electronic materials and devices toward portable immunoassays

FlexMat Pub Date : 2024-04-26 DOI:10.1002/flm2.12
Lingting Huang, Dianping Tang, Zhen Yang
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Abstract

Biomarker identification is a tried-and-true method that can provide precise biological information for disease diagnosis. Prompt diagnosis, disease progression monitoring, therapy efficacy evaluation, and prognosis assessment of cancers all benefit from sensitive, rapid, and precise measurement of significant biomarkers employing chemical and immunological approaches. The study of biomolecules and immunoassay evaluations can profit greatly from recent advancements in flexible electronic materials and technologies, which provide amazing flexibility, affordability, mobility, and integration. However, an overview of the implementation of portable immunoassays in conjunction with flexible electronic devices is rare to come by. This review focuses on recent breakthroughs in flexible electronic materials and devices for portable biomarker testing, which provides an extensive summary of flexible electrical components and sensing-capable devices, emphasizing their adaptability in the construction of biosensing platforms. These platforms employ various signal transduction systems to record biological affinity recognition events, including pressure, temperature, electrical parameters, colorimetric signals, and other physical features. The challenges for portable, integrated, intelligent, and multifunctional immunoassays based on flexible sensing devices are also discussed. The portable immunoassays with flexible electronics would unlock the potential to transform clinical diagnostics into non-clinical personalized treatments and achieve home-based point-of-care testing for daily monitoring.

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用于便携式免疫测定的柔性电子材料和设备
生物标志物鉴定是一种屡试不爽的方法,可为疾病诊断提供精确的生物信息。利用化学和免疫学方法对重要的生物标记物进行灵敏、快速和精确的测量,可为癌症的及时诊断、疾病进展监测、疗效评估和预后评估带来益处。柔性电子材料和技术具有惊人的灵活性、经济性、移动性和集成性,其最新进展可使生物分子研究和免疫测定评估受益匪浅。然而,结合柔性电子设备实施便携式免疫测定的综述并不多见。本综述重点介绍了用于便携式生物标记物检测的柔性电子材料和设备的最新突破,对柔性电子元件和传感设备进行了广泛总结,强调了它们在构建生物传感平台方面的适应性。这些平台采用各种信号传导系统来记录生物亲和性识别事件,包括压力、温度、电参数、比色信号和其他物理特征。此外,还讨论了基于柔性传感设备的便携式、集成式、智能化和多功能免疫测定所面临的挑战。具有柔性电子器件的便携式免疫分析仪将释放出将临床诊断转化为非临床个性化治疗的潜力,并实现基于家庭的日常监测点检测。
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