基于纸张的丝网印刷离子液体/石墨烯电极与普鲁士蓝/MXene 纳米复合材料集成的电化学检测用于葡萄糖传感。

Paper-Based Screen-Printed Ionic-Liquid/Graphene Electrode Integrated with Prussian Blue/MXene Nanocomposites Enabled Electrochemical Detection for Glucose Sensing.

机构信息

Graduate Program in Clinical Biochemistry and Molecular Medicine, Faculty of Allied Health Sciences, Chulalongkorn University, Bangkok 10330, Thailand.

Biosensors and Bioanalytical Technology for Cells and Innovative Testing Device Research Unit, Department of Clinical Chemistry, Faculty of Allied Health Sciences, Chulalongkorn University, Bangkok 10330, Thailand.

出版信息

Biosensors (Basel). 2022 Oct 9;12(10):852. doi: 10.3390/bios12100852.

DOI:10.3390/bios12100852

PMID:36290989

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9599729/

Abstract

As glucose biosensors play an important role in glycemic control, which can prevent the diabetic complications, the development of a glucose sensing platform is still in needed. Herein, the first proposal on the in-house fabricated paper-based screen-printed ionic liquid/graphene electrode (SPIL-GE) modified with MXene (TiCT), prussian blue (PB), glucose oxidase (GOx), and Nafion is reported. The concentration of PB/TiCT was optimized and the optimal detection potential of PB/TiCT/GOx/Nafion/SPIL-GE is -0.05 V. The performance of PB/TiCT/GOx/Nafion modified SPIL-GE was characterized by cyclic voltammetry and chronoamperometry technique. This paper-based platform integrated with nanomaterial composites were realized for glucose in the range of 0.0-15.0 mM with the correlation coefficient R = 0.9937. The limit of detection method and limit of quantification were 24.5 μM and 81.7 μM, respectively. In the method comparison, this PB/TiCT/GOx/Nafion/SPIL-GE exhibits a good correlation with the reference hexokinase method. This novel glucose sensing platform can potentially be used for the good practice to enhance the sensitivity and open the opportunity to develop paper-based electroanalytical devices.

摘要

由于葡萄糖生物传感器在血糖控制中起着重要作用，可以预防糖尿病并发症，因此仍然需要开发葡萄糖传感平台。在此，首次提出了在内部制造的基于纸张的丝网印刷离子液体/石墨烯电极（SPIL-GE）上修饰 MXene（TiCT）、普鲁士蓝（PB）、葡萄糖氧化酶（GOx）和 Nafion 的方案。优化了 PB/TiCT 的浓度，并且 PB/TiCT/GOx/Nafion/SPIL-GE 的最佳检测电位为-0.05 V。通过循环伏安法和计时电流法技术对 PB/TiCT/GOx/Nafion 修饰的 SPIL-GE 的性能进行了表征。该基于纸张的平台与纳米材料复合材料集成在一起，可在 0.0-15.0 mM 的范围内检测葡萄糖，相关系数 R = 0.9937。检测限方法和定量限分别为 24.5 μM 和 81.7 μM。在方法比较中，该 PB/TiCT/GOx/Nafion/SPIL-GE 与参考己糖激酶法具有良好的相关性。这种新型葡萄糖传感平台可用于提高灵敏度的良好实践，并为开发基于纸张的电分析器件开辟机会。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec43/9599729/df97465d74e9/biosensors-12-00852-g001.jpg

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基于纸张的丝网印刷离子液体/石墨烯电极与普鲁士蓝/MXene 纳米复合材料集成的电化学检测用于葡萄糖传感。

Paper-Based Screen-Printed Ionic-Liquid/Graphene Electrode Integrated with Prussian Blue/MXene Nanocomposites Enabled Electrochemical Detection for Glucose Sensing.

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