Recent advances in nanomaterial-based biosensor for testosterone detection

IF 3.3 3区化学 Q2 CHEMISTRY, ANALYTICAL

Analyst Pub Date : 2025-09-11 DOI:10.1039/d5an00450k

Jayanta Sarmah Boruah, Seungkyung Park

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Abstract

Steroid hormone detection is of great concern because of the influential effect of such hormones on human health and activity. In particular, the determination of testosterone is utmost important as it directly relates to the multiple diseases in its deficiency or excess in our body. As the level of testosterone to be detected is typically in pg/mL range, efficient but highly sensitive biosensor platforms have been required. The impact of nanomaterials in this effort is indeed high for the improved sensitivity as well as specificity. In this review, we summarise all such biosensors related to testosterone till date where different types of nanomaterials (from carbon and metal source) have contributed. The detection methods mainly include optical, electrochemical methods considering rapid and user-friendly characteristics. The classification of biosensors is primarily based on receptor materials where nanomaterials play a vital role. The efficiency, detection limit, and advantage or limitation are discussed for each work. Further, the future perspective of the developed methods has been discussed for on-site detection in the form of point-of-care (POC) device. This will help testosterone biosensor researcher to get a platform covering up-to-date findings and strategies to improve their work design.

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基于纳米材料的睾酮检测生物传感器研究进展

由于类固醇激素对人体健康和活动的影响，其检测备受关注。特别是，睾酮的测定是最重要的，因为它直接关系到我们体内多种疾病的缺乏或过量。由于要检测的睾酮水平通常在pg/mL范围内，因此需要高效但高灵敏度的生物传感器平台。纳米材料在这项工作中的影响确实很高，因为它提高了灵敏度和特异性。在这篇综述中，我们总结了迄今为止所有与睾酮相关的生物传感器，其中不同类型的纳米材料（来自碳和金属来源）起了作用。检测方法主要有光学法、电化学法，考虑到快速、方便等特点。生物传感器的分类主要基于受体材料，其中纳米材料起着至关重要的作用。讨论了每一种工作的效率、检出限和优点或局限性。此外，还讨论了以护理点（POC）设备形式进行现场检测的开发方法的未来前景。这将有助于睾酮生物传感器研究人员获得一个涵盖最新发现和策略的平台，以改进他们的工作设计。

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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