Tai Ahn scite author profile

Tai Ahn

3Publications

189Citation Statements Received

98Citation Statements Given

How they've been cited

222

174

How they cite others

Affiliations

GTx (United States), University of California, Riverside, The Ohio State University

Publications

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Photoluminescence of GaN Nanowires of Different Crystallographic Orientations

Chin

Ahn

et al. 2007

Nano Lett.

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We utilized time-integrated and time-resolved photoluminescence of a-axis and c-axis gallium nitride nanowires to elucidate the origin of the blue-shifted ultraviolet photoluminescence in a-axis GaN nanowires relative to c-axis GaN nanowires. We attribute this blue-shifted ultraviolet photoluminescence to emission from surface trap states as opposed to previously proposed causes such as strain effects or built-in polarization. These results demonstrate the importance of accounting for surface effects when considering ultraviolet optoelectronic devices based on GaN nanowires.

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The photophysical properties of chromophores at high (100 mM and above) concentrations in polymers and as neat solids

Al‐Kaysi

Ahn

Müller

et al. 2006

Phys. Chem. Chem. Phys.

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The absorption, fluorescence, and photostability of five conjugated chromophores: perylene, 2,5,8,11-tetra-t-butyl perylene (TTBP), perylene orange (PO), perylene red (PR), and a zwitterionic Meisenheimer complex (MHC), are studied as a function of concentration in poly(methyl methacrylate) (PMMA). At 1 mM concentrations, all five molecules exhibit properties consistent with unaggregated chromophores. At higher concentrations, perylene and PO both exhibit excimer formation, while TTBP, PR, and the MHC retain their monomeric fluorescent lineshapes. In these three molecules, however, the fluorescence decay times decrease by 10% (TTBP) to 50% (MHC) at concentrations of 100 mM in PMMA. The fluorescence properties of these highly concentrated samples are sensitive to the sample preparation conditions. In the neat solid where the effective concentration is on the order of 1 M, all three molecules exhibit very fast fluorescence decays, on the order of 150 ps or less, despite the fact that they retain their basic monomeric fluorescence lineshape. In addition to the enhanced nonradiative decay at high concentrations, these three molecules also undergo a concentration-dependent photobleaching. The combined effects of intermolecular nonradiative decay channels and photobleaching appear to be a general obstacle to achieving highly concentrated dye-doped solids.

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Determination of nitrogen V–V transfer rates by stimulated Raman pumping

2004

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Tai Ahn

Photoluminescence of GaN Nanowires of Different Crystallographic Orientations

The photophysical properties of chromophores at high (100 mM and above) concentrations in polymers and as neat solids

Determination of nitrogen V–V transfer rates by stimulated Raman pumping

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