一种基于伪金纳米棒@二碳化钛 MXene 纳米复合材料的高性能适体传感界面，用于无创检测人体生物流体中的卡马西平。

A high-performance aptasensing interface based on pseudo-AuNBs@TiCT MXene nanocomposite for non-invasive measurement of carbamazepine in human biofluids.

作者信息

Miranshahi Zahra, Asghari Alireza, Shahdost-Fard Faezeh, Rajabi Maryam

机构信息

Department of Chemistry, Semnan University, P.O. Box, Semnan, 19111-35131, Iran.

Department of Chemistry Education, Farhangian University, P.O. Box 14665-889, Tehran, Iran.

出版信息

Mikrochim Acta. 2025 Feb 1;192(2):127. doi: 10.1007/s00604-025-06986-5.

DOI:10.1007/s00604-025-06986-5

PMID:39893254

Abstract

For the first time, a novel aptasensing interface based on smart integration of pseudo-gold nanobons (AuNBs) and TiCT MXene is introduced for high selective detection of carbamazepine (CBZ). The large specific surface area achieved from the proposed nanocomposite increases the targeted immobilization of the Apt sequence on the surface via AuNBs as the linkage. It embeds a high-performance grafting platform for trapping CBZ with high sensitivity and accuracy in human biofluids and pharmaceutical formulations. The molecular dynamic (MD) simulation method that exhibits how the Apt binds to CBZ in a conformation-switching assay format from a molecular view is a valid certification for the interaction of CBZ on the developed aptasensing interface. The aptasensor measured CBZ from 1 fM to 100 nM with a superior detection limit (LOD) value of 330 aM compared with other reported CBZ sensors. Due to using biocompatible and non-toxic compounds, consuming low energy and chemicals the greenness of the proposed strategy has been certified by the international scoring system.

摘要

首次引入了一种基于伪金纳米棒（AuNBs）和TiCT MXene智能集成的新型适体传感界面，用于高选择性检测卡马西平（CBZ）。所提出的纳米复合材料具有较大的比表面积，通过AuNBs作为连接体增加了适体序列在表面的靶向固定。它嵌入了一个高性能的接枝平台，用于在人类生物流体和药物制剂中高灵敏度和准确地捕获CBZ。分子动力学（MD）模拟方法从分子角度展示了适体在构象转换分析形式下如何与CBZ结合，这是对CBZ在开发的适体传感界面上相互作用的有效验证。与其他报道的CBZ传感器相比，该适体传感器测量CBZ的范围为1 fM至100 nM，检测限（LOD）值高达330 aM。由于使用了生物相容性和无毒的化合物，消耗的能量和化学物质较少，该策略的绿色性已通过国际评分系统得到认证。

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一种基于伪金纳米棒@二碳化钛 MXene 纳米复合材料的高性能适体传感界面，用于无创检测人体生物流体中的卡马西平。

A high-performance aptasensing interface based on pseudo-AuNBs@TiCT MXene nanocomposite for non-invasive measurement of carbamazepine in human biofluids.

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