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Self-Assembled Plasmonic Nanogaps: Enabling Early Detection of Biofilm Formation

机译：自组装等离子体纳米可力：启用生物膜形成的早期检测

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Pseudomonas aeruginosa is an opportunistic, biofilm-forming pathogen. P. aeruginosa produces pyocyanin, a secondary metabolite as part of its quorum sensing signaling system activated during biofilm formation. Self-organized plasmonic nanogaps provide enhancements to Raman scattering signals to achieve 10 ng/mL limit of detection of pyocyanin that enables early detection of biofilm formation. We report, for the first time, in-line biofilm detection in microfluidic channels as early as three hours from the onset of bacterial culturing and quantification spanning five-orders of magnitude of pyocyanin concentration during biofilm formation of PA14.

机译：假单胞菌铜绿假单胞菌是一种机会主义，生物膜形成病原体。 P.铜绿假单胞菌生产酶蛋白，次级代谢物，作为其在生物膜形成期间激活的仲裁传感信号系统的一部分。自组织等离子体纳米纳米体提供了拉曼散射信号的增强，以实现10ng / ml检测的肥氰酸盐的限制，这使得能够早期检测生物膜形成。我们首次报告在微流体通道中，早在PA11的生物膜形成期间始于PA14的生物膜形成期间的细菌培养和量化跨越五个序列的量化培养和量化的三个小时。

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《IEEE Sensors Conference》|2017年|1140-1711p|共3页
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作者
Cuong Nguyen; William J. Thrift; Arunima Bhattacharjee; Mahsa Darvishzadeh-Varcheie; Filippo Capolino; Allon Hochbaum; Regina Ragan;
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中图分类 TP212-53;
关键词
Colloids; Self-assembly; Surface enhanced Raman scattering; Plasmonics; Biofilms; Metabolomics; Quorum sensing; Biosensor;

机译：胶体;自组装;表面增强拉曼散射;血管分子;生物膜;代谢组学;法定传感;生物传感器;

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4. Self-Assembled Plasmonic Nanogaps: Enabling Early Detection of Biofilm Formation [C] . Cuong Nguyen, William J. Thrift, Arunima Bhattacharjee, IEEE Sensors Conference . 2017

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Self-Assembled Plasmonic Nanogaps: Enabling Early Detection of Biofilm Formation

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