Redox cycling-based electrochemical-enzymatic biosensor platform fabricated via electrodeposition of gold nanoparticles on carbon IDA nanoelectrodes

机译：通过在碳IDA纳米电极上电沉积金纳米颗粒制造的基于氧化还原循环的电化学酶生物传感器平台

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We developed a highly sensitive biosensor platform based on electrochemical-enzymatic redox cycling induced by selective enzyme immobilization on carbon interdigitated array (IDA) nanoelectrodes decorated with gold nanoparticles (AuNPs). The sensor platform fabricated using a simple, cost-effective, reproducible, and batch microfabrication process known as carbon-MEMS and electrodeposition. The 3D AuNP/carbon IDA facilitates the enhancement of surface reactivity, surface area, and reduces the inter-electrode gap; these enhance the redox-cycling-based electrochemical signal amplification. AuNP/carbon IDA is further applied to the amperometric detection of glucose and exhibited higher sensitivity and better LOD attributed its potential applicability to clinical applications.

机译：我们开发了一种基于电化学-酶氧化还原循环的高度灵敏的生物传感器平台，该电化学酶氧化还原循环是由选择性酶固定在装饰有金纳米颗粒（AuNPs）的碳叉指阵列（IDA）纳米电极上引起的。该传感器平台采用一种简单，经济高效，可重复生产的批量微制造工艺制造，该工艺被称为Carbon-MEMS和电沉积。 3D AuNP /碳IDA有助于提高表面反应性，表面积并减少电极间间隙;这些增强了基于氧化还原循环的电化学信号放大。 AuNP /碳IDA进一步应用于葡萄糖的安培检测，并显示出更高的灵敏度和更好的LOD，这归因于其潜在的临床应用价值。

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《International Conference on Solid-State Sensors, Actuators and Microsystems》|2017年|1573-1575|共3页
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D. Sharma; J. Lee; J. Seo; H. Shin;
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Carbon; Sugar; Electrodes; Biosensors; Surface treatment; Fabrication; Gold;

机译：碳;糖;电极;生物传感器;表面处理;制造;金;
入库时间 2022-08-26 13:49:03

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4. Redox cycling-based electrochemical-enzymatic biosensor platform fabricated via electrodeposition of gold nanoparticles on carbon IDA nanoelectrodes [C] . D. Sharma, J. Lee, J. Seo, International Conference on Solid-State Sensors, Actuators and Microsyste-ms . 2017

机译：氧化还原循环的电化学酶发式体传感器平台，通过碳IDA纳米电极的金纳米颗粒电沉积制造
5. Nanoelectrode and nanoparticle based biosensors for environmental and health monitoring. [D] . Syed, Lateef Uddin. 2012

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Redox cycling-based electrochemical-enzymatic biosensor platform fabricated via electrodeposition of gold nanoparticles on carbon IDA nanoelectrodes

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