使用TiO流通膜对作为肾功能障碍生物标志物的肌酐进行无酶检测。

Enzyme-free detection of creatinine as a kidney dysfunction biomarker using TiO flow-through membranes.

作者信息

Khaliq Nilem, Ali Ghafar, Rasheed Muhammad Asim, Khan Maaz, Muhammad Wazir, Schmuki Patrik, Karim Shafqat

机构信息

Department of Physics and Applied Mathematics, Pakistan Institute of Engineering and Applied Sciences (PIEAS) Islamabad 45650 Pakistan

Department of Materials Science and Engineering, University of Erlangen-Nuremberg Martensstrasse 7 D-91058 Erlangen Germany.

出版信息

Nanoscale Adv. 2024 Dec 2;7(2):643-658. doi: 10.1039/d4na00562g. eCollection 2025 Jan 14.

DOI:10.1039/d4na00562g

PMID:39664786

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11629886/

Abstract

TiO nanotube flow-through membranes (TNTsM) were fabricated anodization of Ti foil and explored as a biosensing platform for creatinine detection. The electrodes were prepared in different configurations including TNT membrane with top surface up (TNTsMTU/TNPs/FTO), TNT membrane with bottom surface up (TNTsMBU/TNPs/FTO), TNT membrane with top surface up containing nanograss (TNTsMNG/TNPs/FTO), and TNTs/NPs/FTO and TiO nanoparticles (TNPs) film on fluorine doped tin oxide (TNPs/FTO). Electrochemical studies depict the higher electrochemical activity (sensitivity ∼19.88 μA μM cm) of TNTsMTU/TNPs/FTO towards creatinine compared to other configurations. This exceptional performance of the TNTsMTU/TNPs/FTO electrode results from the flow-through nature of TNTsM and the removal of the bottom oxide barrier layer through etching in HO. The underlying layer of TiO NPs also contributes to the higher current response of the TNTsMTU/TNPs/FTO. The relevance of the biosensor structural design is demonstrated by the increased amperometric response of TNTsMTU/TNPs/FTO and greater redox peak current in cyclic voltammograms. Furthermore, the higher selectivity, stability, and reproducibility of the electrode can be due to the suitable redox potential, chemical stability, and controlled fabrication process of TNT membranes.

摘要

通过对钛箔进行阳极氧化制备了TiO纳米管流通膜（TNTsM），并将其作为检测肌酐的生物传感平台进行了探索。制备了不同结构的电极，包括顶面朝上的TNT膜（TNTsMTU/TNPs/FTO）、底面朝上的TNT膜（TNTsMBU/TNPs/FTO）、顶面朝上且含有纳米草的TNT膜（TNTsMNG/TNPs/FTO）、TNTs/NPs/FTO以及氟掺杂氧化锡上的TiO纳米颗粒（TNPs）薄膜（TNPs/FTO）。电化学研究表明，与其他结构相比，TNTsMTU/TNPs/FTO对肌酐具有更高的电化学活性（灵敏度约为19.88 μA μM cm）。TNTsMTU/TNPs/FTO电极的这种卓越性能源于TNTsM的流通性质以及通过在H₂O中蚀刻去除底部氧化阻挡层。TiO NPs的底层也有助于TNTsMTU/TNPs/FTO产生更高的电流响应。TNTsMTU/TNPs/FTO的安培响应增加以及循环伏安图中更大的氧化还原峰电流证明了生物传感器结构设计的相关性。此外，电极具有更高的选择性、稳定性和重现性可能归因于TNT膜合适的氧化还原电位、化学稳定性和可控的制备工艺。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/50ff/11730768/cb71c64aa722/d4na00562g-s1.jpg

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使用TiO流通膜对作为肾功能障碍生物标志物的肌酐进行无酶检测。

Enzyme-free detection of creatinine as a kidney dysfunction biomarker using TiO flow-through membranes.

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