Aluminum Nanoparticles as Substrates for Metal-Enhanced Fluorescence in the Ultraviolet for the Label-Free Detection of Biomolecules

Mustafa H. Chowdhury; Krishanu Ray; Stephen K. Gray; James Pond; Joseph R. Lakowicz

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Aluminum Nanoparticles as Substrates for Metal-Enhanced Fluorescence in the Ultraviolet for the Label-Free Detection of Biomolecules

机译：铝纳米粒子作为基质的紫外线中金属增强荧光的无标记生物分子检测

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We use finite-difference time-domain calculations to show that aluminum nanoparticles are efficient substrates for metal-enhanced fluorescence (MEF) in the ultraviolet (UV) for the label-free detection of biomolecules. The radiated power enhancement of the fluorophores in proximity to aluminum nanoparticles is strongly dependent on the nanoparticle size, fluorophore-nanoparticle spacing, and fluorophore orientation. Additionally, the enhancement is dramatically increased when the fluorophore is between two aluminum nanoparticles of a dimer. Finally, we present experimental evidence that functionalized forms of amino acids tryptophan and tyrosine exhibit MEF when spin-coated onto aluminum nanostructures.

机译：我们使用时域有限差分计算来表明，铝纳米颗粒是有效的底物，可用于紫外线（UV）中的金属增强荧光（MEF），用于无标记检测生物分子。靠近铝纳米颗粒的荧光团的辐射功率增强在很大程度上取决于纳米颗粒尺寸，荧光团-纳米颗粒间距和荧光团取向。另外，当荧光团在二聚体的两个铝纳米颗粒之间时，增强显着增加。最后，我们提供了实验证据，证明当色氨酸旋涂到铝纳米结构上时，氨基酸色氨酸和酪氨酸的功能化形式表现出MEF。

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《Analytical chemistry》 |2009年第4期|共7页
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Mustafa H. Chowdhury; Krishanu Ray; Stephen K. Gray; James Pond; Joseph R. Lakowicz;
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1. Aluminum Nanoparticles as Substrates for Metal-Enhanced Fluorescence in the Ultraviolet for the Label-Free Detection of Biomolecules [J] . Mustafa H. Chowdhury, Krishanu Ray, Stephen K. Gray, Analytical chemistry . 2009,第4期

机译：铝纳米粒子作为基质的紫外线中金属增强荧光的无标记生物分子检测
2. Metal-Enhanced Intrinsic Fluorescence of Proteins on Silver Nanostructured Surfaces toward Label-Free Detection [J] . Krishanu Ray, Mustafa H.Chowdhury, Henryk Szmacinski The journal of physical chemistry, C. Nanomaterials and interfaces . 2008,第46期

机译：银纳米结构表面上蛋白质的金属增强型固有荧光向无标记检测
3. Indium nanodeposits: A substrate for metal-enhanced fluorescence in the ultraviolet spectral region [J] . Anatoliy I. Dragan, Chris D. Geddes Journal of Applied Physics . 2010,第9期

机译：铟纳米沉积物：紫外光谱区域中用于金属增强荧光的基质
4. On-chip ultraviolet holography for high-throughput nanoparticle and biomolecule detection [C] . Mustafa Ugur Daloglu, Aniruddha Ray, Zoltan Gorocs, Optics and Biophotonics in Low-Resource Settings IV . 2018

机译：片上紫外线全息技术，用于高通量纳米粒子和生物分子检测
5. Label-free Detection of Cancer Cells with Polysilicon Sensor Chips and Biomolecule-assisted Synthesis of Shape-controlled Nanoparticles [D] . Shi, Menglu. 2015

机译：多晶硅传感器芯片和形状控制的纳米粒子的生物分子辅助合成的无标记癌细胞检测。
6. Aluminum Nanoparticles as Substrates for Metal-Enhanced Fluorescence in the Ultraviolet for the Label-Free Detection of Biomolecules [O] . Mustafa H. Chowdhury, Krishanu Ray, Stephen K. Gray, -1

机译：铝纳米粒子作为基质的紫外线中金属增强荧光的无标记检测生物分子
7. A Model for DNA Detection by Metal-Enhanced Fluorescence from Immobilized Silver Nanoparticles on Solid Substrate [O] . Jian Zhang, Joseph R. Lakowicz 2006

机译：固定化银纳米颗粒对固体基质的金属增强荧光的DNA检测模型

Aluminum Nanoparticles as Substrates for Metal-Enhanced Fluorescence in the Ultraviolet for the Label-Free Detection of Biomolecules

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