Abstract:
Most studies on MXene matrix composites for sensor development have primarily focused on synthesis and application. Nevertheless, there is currently a lack of research on how the introduction of different materials affects the sensing properties of these composites. The rapid development of MXene has raised intriguing questions about improving sensor performance by combining MXene with other materials such as polymers, metals and inorganic non-metals. This review will concentrate on the construction of MXene-based composites and explore ways to enhance their sensor applications. Specifically, this review describes why the introduction of materials to the system brings the advantage of low concentration and high sensitivity assays, as well as the MXene-based frameworks that have been recently investigated. Lastly, in order to capture the current trend of MXene-based composites in sensor applications and identify promising research directions, this review will critically evaluate the potential applications of newly developed MXene systems.
摘要:
用于传感器开发的MXene基质复合材料的大多数研究主要集中在合成和应用上。然而,目前缺乏不同材料的引入如何影响这些复合材料的传感性能的研究。MXene的快速发展提出了关于通过将MXene与聚合物等其他材料结合来提高传感器性能的有趣问题,金属和无机非金属。这篇综述将集中在MXene基复合材料的构建上,并探索增强其传感器应用的方法。具体来说,这篇综述描述了为什么在系统中引入材料会带来低浓度和高灵敏度测定的优势,以及最近研究的基于MXene的框架。最后,为了捕捉当前MXene基复合材料在传感器应用中的趋势,并确定有前途的研究方向,这篇综述将批判性地评估新开发的MXene系统的潜在应用。
