Exploitation of enhanced fluorescence via cross coupling principles towards the design of an optical integrated thin-film sensor for nanotechnology and biomedical applications

机译：通过交叉耦合原理开发增强的荧光，以设计用于纳米技术和生物医学应用的光学集成薄膜传感器

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A novel fluorescence thin-film integrated sensor has been proposed that retains the beneficial selectivity characteristics typical of optical and electronic sensors, while improving the signal-to-noise ratio in a miniature geometry. The sensor can be tuned to measure a wide variety of biological species by varying its thin-film corrugation period. The optical properties of the sensor are determined, in large part, by optical cross coupling through corrugated metal film and enhanced fluorescence. The surface plasmon-surface plasmon cross coupling was theoretically modeled and experimentally tested. Finally, prospective applications of this sensor in key areas of nanotechnology and bioengineering are discussed.

机译：已经提出了一种新型荧光薄膜集成传感器，其保留了光学和电子传感器的典型有益选择性特性，同时提高了微型几何形状中的信噪比。传感器可以通过改变其薄膜波纹周期来调谐以测量各种各样的生物物种。传感器的光学性质在很大程度上通过光学交叉耦合通过波纹金属膜和增强的荧光来确定。理论上是建模和实验测试的表面等离子体表面等离子体交叉耦合。最后，讨论了该传感器在纳米技术和生物工程的关键领域的前瞻性应用。

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《Instrumentation and Measurement Technology Conference, 2001. IMTC 2001. Proceedings of the 18th IEEE》|2001年|P.1904-1909|共6页
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Giakos; G.C.; Meehan; K.; Tuma; M.;
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中图分类无线电电子学、电信技术;
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机译：新型荧光化学传感器的开发：1.通过构象限制的荧光增强作为结合事件的信号传导方法。 2.开发用于SAR和波长调谐的联芳基吡啶荧光团的模块化设计。 3.设计和开发用于爆炸性三丙酮三氧化物的荧光传感器。
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机译：光学相干层析成像：基本原理，仪器设计和生物医学应用

Exploitation of enhanced fluorescence via cross coupling principles towards the design of an optical integrated thin-film sensor for nanotechnology and biomedical applications

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