The idea is to develop nanostructure based biosensing platforms as commercial diagnostic tools for early stage non-invasive virus detection to enhance the selectivity from the existing electrical biosensors by introducing additional electrical signatures and correlating electrical characterization data with other proteomics characterization results. The aim of this proposed research is the performance enhancement of available nanobiosensors in terms of sensitivity and selectivity for the early and rapid diagnosis and prognosis of viral infections.

中文翻译：

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在石墨烯和ZnO纳米结构上开发具有成本效益的低成本生物分子检测低噪声FET生物传感器，以增强性能

想法是开发基于纳米结构的生物传感平台，作为用于早期非侵入性病毒检测的商业诊断工具，以通过引入其他电学特征并将电学特征数据与其他蛋白质组学表征结果相关联，增强对现有电生物传感器的选择性。这项拟议研究的目的是就病毒感染的早期和快速诊断和预后，在灵敏度和选择性方面提高可用纳米生物传感器的性能。