Journal
JOURNAL OF PHYSICAL CHEMISTRY C
Volume 116, Issue 50, Pages 26529-26534Publisher
AMER CHEMICAL SOC
DOI: 10.1021/jp309660s
Keywords
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Funding
- Science Foundation Ireland [10/IN.1/12975]
- Germany/Hong Kong Joint Research Scheme
- Research Grants Council of Hong Kong [G_HK008/10]
- German Academic Exchange Service [G_HK008/10]
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The influence of gold nanoparticle concentration on signatures of localized surface plasmon mediated Forster resonant energy transfer is investigated in a quantum dot-gold nanoparticle sandwich structure. At lower gold nanoparticle concentrations, localized surface plasmon mediated Forster resonant energy transfer enhancement of the acceptor emission is observed. At higher gold nanoparticle concentrations, the acceptor emission is reduced despite faster localized surface plasmon enhanced Forster resonant energy transfer rates being achieved. This is attributed to competition between localized surface plasmon mediated Forster resonant energy transfer and gold nanoparticle quenching effects.
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