Nanoscale control of Ag nanostructures for plasmonic fluorescence enhancement of near-infrared dyes
Technology
CHEMISTRY, PHYSICAL
NANOSCIENCE & NANOTECHNOLOGY
SURFACE
Materials Science
NIR dyes
Materials Science, Multidisciplinary
MATERIALS SCIENCE, MULTIDISCIPLINARY
02 engineering and technology
SILVER NANOPARTICLES
FILMS
Physics, Applied
nanostructures
MD Multidisciplinary
Physical
Nanoscience & Nanotechnology
PHYSICS, APPLIED
NANOSHELLS
DOTS
Multidisciplinary
Science & Technology
Ag triangular-like
Chemistry, Physical
Physics
scattering
fluorescence enhancement
Ag triangular-like nanostructures
LITHOGRAPHY
COLLOIDS
Chemistry
Applied
Physical Sciences
GOLD NANOPARTICLES
Science & Technology - Other Topics
SENSITIVITY
0210 nano-technology
absorption
AU NANOSTRUCTURES
DOI:
10.1007/s12274-013-0327-5
Publication Date:
2013-05-23T13:19:12Z
AUTHORS (6)
ABSTRACT
Potential utilization of proteins for early detection and diagnosis of various diseases has drawn considerable interest in the development of protein-based detection techniques. Metal induced fluorescence enhancement offers the possibility of increasing the sensitivity of protein detection in clinical applications. We report the use of tunable plasmonic silver nanostructures for the fluorescence enhancement of a near-infrared (NIR) dye (Alexa Fluor 790). Extensive fluorescence enhancement of ∼2 orders of magnitude is obtained by the nanoscale control of the Ag nanostructure dimensions and interparticle distance. These Ag nanostructures also enhanced fluorescence from a dye with very high quantum yield (7.8 fold for Alexa Fluor 488, quantum efficiency (Qy) = 0.92). A combination of greatly enhanced excitation and an increased radiative decay rate, leading to an associated enhancement of the quantum efficiency leads to the large enhancement. These results show the potential of Ag nanostructures as metal induced fluorescence enhancement (MIFE) substrates for dyes in the NIR “biological window” as well as the visible region. Ag nanostructured arrays fabricated by colloidal lithography thus show great potential for NIR dye-based biosensing applications. Open image in new window
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CITATIONS (79)
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