Nanotechnology-based Biosensor for the Detection of Harmful Pathogens in Potable Water

机译：基于纳米技术的生物传感器，用于检测饮用水中有害病原体

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We report and discuss our first efforts devoted to realizing an innovative and miniaturized nanotechnology-based biosensor capable of real-time detect and quantify the presence of harmful pathogens dispersed in potable water. Gold nanorods, selected for their colorimetric sensitivity to the refractive index change, are functionalized, via the electrostatic linking method, with anti-Escherichia coli (E.coli) antibody. Selective recognition experiments are performed by utilizing a physiological solution containing different E.coli concentrations, thus exploiting the interaction between E.coli surface antigens and the anti-E.coli antibody. The system is characterized in terms of morphological, optical, and spectroscopic properties. Results reveal an excellent capability to discriminate small changes in the E.coli concentration in a range from 10 to 10^{2 CFU/mL.}

机译：我们向实现能够实时检测和量化分散在饮用水中的有害病原体存在的创新和小型化纳米技术的生物传感器的第一次致力于实现基于创新和小型化的纳米技术的生物传感器。通过静电连接方法，通过静电连接方法与抗重量联系（大肠杆菌）抗体进行比色敏感性的金纳米棒。通过利用含有不同大肠杆菌浓度的生理溶液进行选择性识别实验，从而利用大肠杆菌表面抗原和抗E.COLI抗体之间的相互作用。该系统的特征在于形态学，光学和光谱性质。结果显示出优异的能力，以区分大肠杆菌浓度的小变化在10到10的范围内 ^{2 cfu / ml。}

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《IEEE International Workshop on Metrology for AeroSpace》|2021年|469-472|共4页
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Francesca Petronella; Melissa De Angelis; Daniela DeBiase; Seok-Im Lim; Kwang-Un Jeong; Nicholas Godman; Dean Evans; Michael Mcconney; Luciano De Sio;
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Gold; Pathogens; Sensitivity; Surface morphology; Refractive index; Real-time systems; Physiology;

机译：金;病原体;敏感性;表面形态;折射率;实时系统;生理学;

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Nanotechnology-based Biosensor for the Detection of Harmful Pathogens in Potable Water

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