Nanostructured Transition Metal Sulfide-based Glucose and Lactic AcidElectrochemical Sensors for Clinical Applications

纳米技术 乳酸 材料科学 纳米材料 生物传感器 电化学 电化学气体传感器 纳米复合材料 生物分子 小型化 石墨烯 电极 化学 细菌 生物 遗传学 物理化学
作者
Govindhan Maduraiveeran,Mani Arivazhagan,Palanisamy Kannan
出处
期刊:Current Topics in Medicinal Chemistry [Bentham Science Publishers]
卷期号:23 (4): 284-294 被引量:24
标识
DOI:10.2174/1568026623666221205093154
摘要

Engineered nanostructures of mixed transition metal sulfides have emerged as promising nanomaterials (NMs) for various electrochemical sensors and biosensors applications, including glucose sensors (GS) and lactic acid sensors (LAS) in clinical aspects. Electrochemical sensors based on nanostructured materials, such as transition metal sulfides and their nanocomposites, including graphene, carbon nanotubes, molecularly imprinted polymers, and metal-organic frameworks, have emerged as potent tools for the monitoring and quantification of biomolecules. Highly sensitive and selective electrochemical detection systems have generally been established credibly by providing new functional surfaces, miniaturization processes, and different nanostructured materials with exceptional characteristics. This review provides an overview of glucose and lactic acid sensors based on transition metal nanomaterials and their nanocomposites with a detailed discussion about the advantages and challenges. The merits of nanoscale transition metal sulphide-based electrochemical sensors and biosensor systems include cost-effectiveness, ease of miniaturization process, energy- and time-efficient, simple preparation, etc. Moreover, online sensing competence is the dynamic strength for sustained progress of electrochemical detection systems, thus fascinating interdisciplinary research. In particular, we discuss the synthesis, characteristics, electrode construction strategies, and uses in electrochemical sensing of glucose and lactic acid primarily based on our most recent research and other reports. In addition, the challenges and future perspectives of the nanostructured transition metal sulfides-based electrochemical sensing and biosensing systems toward the detection of glucose and lactic acid are described.
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