Metal-enhanced chemiluminescence: Radiating plasmons generated from chemically induced electronic excited states
- 24 April 2006
- journal article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 88 (17) , 173104
- https://doi.org/10.1063/1.2195776
Abstract
In this letter, we report the observation of metal-enhanced chemiluminescence. Silver Island films, in close proximity to chemiluminescence species, can significantly enhance luminescence intensities; a 20-fold increase in chemiluminescence intensity was observed as compared to an identical control sample containing no silver. This suggests the use of silver nanostructures in the chemiluminescence-based immunoassays used in the biosciences today, to improve signal and therefore analyte detectability. In addition, this finding suggests that surface plasmons can be directly excited by chemically induced electronically excited luminophores, a significant finding toward our understanding of fluorophore-metal interactions and the generation of surface plasmons.Keywords
This publication has 15 references indexed in Scilit:
- Annealed Silver-Island Films for Applications in Metal-Enhanced Fluorescence: Interpretation in Terms of Radiating PlasmonsJournal of Fluorescence, 2005
- Plasmon light scattering in biology and medicine: new sensing approaches, visions and perspectivesCurrent Opinion in Chemical Biology, 2005
- Rapid Deposition of Triangular Silver Nanoplates on Planar Surfaces: Application to Metal-Enhanced FluorescenceThe Journal of Physical Chemistry B, 2005
- Radiative decay engineering 5: metal-enhanced fluorescence and plasmon emissionAnalytical Biochemistry, 2005
- Fast and Slow Deposition of Silver Nanorods on Planar Surfaces: Application to Metal-Enhanced FluorescenceThe Journal of Physical Chemistry B, 2005
- Metal-enhanced fluorescence: an emerging tool in biotechnologyPublished by Elsevier ,2005
- Radiative decay engineering 3. Surface plasmon-coupled directional emissionAnalytical Biochemistry, 2003
- Radiative Decay Engineering: Biophysical and Biomedical ApplicationsAnalytical Biochemistry, 2001
- Light-Scattering Submicroscopic Particles as Highly Fluorescent Analogs and Their Use as Tracer Labels in Clinical and Biological ApplicationsAnalytical Biochemistry, 1998
- Light-Scattering Submicroscopic Particles as Highly Fluorescent Analogs and Their Use as Tracer Labels in Clinical and Biological ApplicationsAnalytical Biochemistry, 1998