Ag-CNT Architectures for Attomolar Dopamine Detection and 100-Fold Fluorescence Enhancements with Cellphone-Based Surface Plasmon-Coupled Emission Platform

Badiya Pradeep Kumar; Srinivasan Venkatesh; Jayakumar Tejkiran Pindi; Ramamurthy Sai Sathish

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Ag-CNT Architectures for Attomolar Dopamine Detection and 100-Fold Fluorescence Enhancements with Cellphone-Based Surface Plasmon-Coupled Emission Platform

机译：Ag-CNT结构用于基于手机的表面等离激元耦合发射平台的摩尔浓度多巴胺检测和100倍荧光增强

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We report cellphone-based detection of dopamine with atto-molar sensitivity in clinical samples with the use of a surface plasmon-coupled emission (SPCE) platform. To this end, silver-coated carbon nanotubes were used as spacer and cavity materials on SPCE substrates to obtain up to 100-fold fluorescence enhancements. The presence of silver on the carbon nanotubes helped to overcome fluorescence quenching arising due to pi-pi interactions between the carbon nanotube and rhodamine 6G. The competing adsorption of dopamine versus rhodamine 6G on graphene oxide was utilized to develop this sensing platform.

机译：我们报告使用基于表面等离子体激元耦合发射（SPCE）平台的临床样品中基于摩尔浓度的多巴胺基于手机的检测。为此，将涂银的碳纳米管用作SPCE基板上的间隔物和腔体材料，以获得高达100倍的荧光增强效果。碳纳米管上银的存在有助于克服由于碳纳米管与罗丹明6G之间的pi-pi相互作用而引起的荧光猝灭。多巴胺与罗丹明6G在氧化石墨烯上的竞争性吸附被用于开发该传感平台。

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《Chemphyschem: A European journal of chemical physics and physical chemistry》 |2016年第18期|共4页
作者
Badiya Pradeep Kumar; Srinivasan Venkatesh; Jayakumar Tejkiran Pindi; Ramamurthy Sai Sathish;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
biosensors; carbon; dopamine; graphene; nanotubes;

机译：生物传感器;碳;多巴胺;石墨烯;纳米管;

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1. Ag-CNT Architectures for Attomolar Dopamine Detection and 100-Fold Fluorescence Enhancements with Cellphone-Based Surface Plasmon-Coupled Emission Platform [J] . Badiya Pradeep Kumar, Srinivasan Venkatesh, Jayakumar Tejkiran Pindi, Chemphyschem: A European journal of chemical physics and physical chemistry . 2016,第18期

机译：Ag-CNT结构用于基于手机的表面等离激元耦合发射平台的摩尔浓度多巴胺检测和100倍荧光增强
2. Ag-protein plasmonic architectures for surface plasmon-coupled emission enhancements and Fabry-Perot mode-coupled directional fluorescence emission [J] . Pradeep Kumar Badiya, Sai Gourang Patnaik, Venkatesh Srinivasan, Chemical Physics Letters . 2017,第期

机译：用于表面等离子体耦合发射增强和法布里 - 珀罗模式偶联方向荧光发射的Ag蛋白质等离子体架构
3. Synergistic coupling of titanium carbonitride nanocubes and graphene oxide for 800-fold fluorescence enhancements on smartphone based surface plasmon-coupled emission platform [J] . Bhaskar Seemesh, Ramamurthy Sai Sathish Materials Letters . 2021,第Sepa1期

机译：基于智能手机的表面等离子体耦合发射平台对碳氮化钛纳米纤维和石墨烯和石墨烯氧化物增强的协同偶联
4. Analysis of the Fluorescence Imaging of Surface Plasmon-coupled Emission Microscopy [C] . X. Ji, T. Suyama, A. Matsushima, Progress in Electromagnetics Research Symposium . 2016

机译：表面等离子体耦合发射显微镜荧光成像分析
5. Developing a method for enhanced explosive detection by Surface Enhanced Raman Scattering (SERS) and Metal Enhanced Fluorescence (MEF) . [D] . Matoian, Meredith A. 2013

机译：开发一种通过表面增强拉曼散射（SERS）和金属增强荧光（MEF）增强爆炸物检测的方法。
6. Fluorescence Enhancement Using Bimetal Surface Plasmon-Coupled Emission from 5-Carboxyfluorescein (FAM) [O] . Nhu Hoa Thi Tran, Kieu The Loan Trinh, Jun-Ho Lee, 2018

机译：使用5-羧基荧光素（FAM）的双金属表面等离子体耦合发射增强荧光。
7. Back Cover: Ag-CNT Architectures for Attomolar Dopamine Detection and 100-Fold Fluorescence Enhancements with Cellphone-Based Surface Plasmon-Coupled Emission Platform (ChemPhysChem 18/2016) [O] . Pradeep Kumar Badiya, Venkatesh Srinivasan, Tejkiran Pindi Jayakumar, 2016

机译：返回封面：AG-CNT架构用于Atormolar多巴胺检测和100倍的荧光增强与蜂窝电话的表面等离子体耦合发射平台（Chemphyschem 18/2016）

Ag-CNT Architectures for Attomolar Dopamine Detection and 100-Fold Fluorescence Enhancements with Cellphone-Based Surface Plasmon-Coupled Emission Platform

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