G
Geoffrey F. Strouse
Researcher at Florida State University
Publications - 162
Citations - 9118
Geoffrey F. Strouse is an academic researcher from Florida State University. The author has contributed to research in topics: Quantum dot & Excited state. The author has an hindex of 48, co-authored 154 publications receiving 8608 citations. Previous affiliations of Geoffrey F. Strouse include Los Alamos National Laboratory & University of North Carolina at Chapel Hill.
Papers
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Quantum correlation among photons from a single quantum dot at room temperature
Peter Michler,Atac Imamoglu,Michael Mason,Paul J. Carson,Geoffrey F. Strouse,Steven K. Buratto +5 more
TL;DR: This result proves that a single quantum dot acts like an artificial atom, with a discrete anharmonic spectrum, and finds the photon-emission events from a cluster of several dots to be uncorrelated.
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Nanometal surface energy transfer in optical rulers, breaking the FRET barrier.
Yun Cs,Artjay Javier,Travis L. Jennings,Fisher M,Hira S,Stacey N. Peterson,Hopkins Ben Barrett,Norbert O. Reich,Geoffrey F. Strouse +8 more
TL;DR: This report reports the first successful application of a dipole-surface type energy transfer from a molecular dipole to a nanometal surface that more than doubles the traditional Forster range (220 A) and follows a 1/R(4) distance dependence.
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Microwave-enhanced reaction rates for nanoparticle synthesis
TL;DR: The use of microwave (MW) methodology is readily scalable to larger reaction volumes, allows faster reaction times, removes the need for high-temperature injection, and suggests a specific microwave effect may be present in these reactions.
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Fluorescent Lifetime Quenching near d = 1.5 nm Gold Nanoparticles: Probing NSET Validity
TL;DR: In agreement with the model of Persson and Lang, all experimental data show that energy transfer to the metal surface is the dominant quenching mechanism, and the radiative rate is unchanged throughout the experiment.
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Inorganic Clusters as Single-Source Precursors for Preparation of CdSe, ZnSe, and CdSe/ZnS Nanomaterials
Scott L. Cumberland,Khalid M. Hanif,Artjay Javier,Gregory A. Khitrov,Geoffrey F. Strouse,Stephen M. Woessner,C. Steven Yun +6 more
TL;DR: The use of a cluster-based single-source precursor allows nanomaterial growth to be initiated at low temperature without the pyrolytic step for nucleus formation traditionally required for lyothermal growth processes as mentioned in this paper.