Ti3C2 MXene-Based Nanobiosensors for Detection of Cancer Biomarkers

Novel Nanomaterials Pub Date : 2020-11-06 DOI:10.5772/INTECHOPEN.94309
Lenka Lorencova, K. K. Sadasivuni, P. Kasák, J. Tkáč
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引用次数: 5

Abstract

This chapter provides information about basic properties of MXenes (2D nanomaterials) that are attractive for a design of various types of nanobiosensors. The second part of the chapter discusses MXene synthesis and various protocols for modification of MXene making it a suitable matrix for immobilization of bioreceptors such as antibodies, DNA aptamers or DNA molecules. The final part of the chapter summarizes examples of MXene-based nanobiosensors developed using optical, electrochemical and nanomechanical transducing schemes. Operational characteristics of such devices such as sensitivity, limit of detection, assay time, assay reproducibility and potential for multiplexing are provided. In particular MXene-based nanobiosensors for detection of a number of cancer biomarkers are shown here.
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基于Ti3C2 mxeni的纳米生物传感器用于检测癌症生物标志物
本章提供了MXenes (2D纳米材料)的基本特性信息,这些特性对于设计各种类型的纳米生物传感器具有吸引力。本章的第二部分讨论了MXene的合成和各种MXene修饰方案,使其成为固定化生物受体(如抗体、DNA适体或DNA分子)的合适基质。本章的最后一部分总结了使用光学、电化学和纳米机械转导方案开发的基于mxene的纳米生物传感器的例子。提供了这种装置的操作特性,如灵敏度、检测限、测定时间、测定重现性和复用潜力。特别地,这里展示了用于检测许多癌症生物标志物的基于mxene的纳米生物传感器。
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Novel Nanomaterials
Novel Nanomaterials
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