Journal ArticleDOI
Electronic Energy Transfer in CdSe Quantum Dot Solids
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TLDR
Electronic energy transfer between close packed quantum dots using cw and time resolved photoluminescence is demonstrated and is consistent with long-range resonance transfer of electronic excitations from the more electronically confined states of the small dots to the higher excitedStates of the large dots.Abstract:
We demonstrate electronic energy transfer between close packed quantum dots using cw and time resolved photoluminescence. Optically clear and thin, close packed quantum dot solids were prepared from mixtures of small and large CdSe quantum dots (38.5 and 62 \AA{}, $\ensuremath{\sigma}l4.5%$). Quenching of the luminescence (lifetime) of the small dots accompanied by enhancement of the luminescence (lifetime) of the large dots is consistent with long-range resonance transfer of electronic excitations from the more electronically confined states of the small dots to the higher excited states of the large dots.read more
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Journal ArticleDOI
Electrical modulation of static and dynamic spectroscopic properties of coupled nanoscale GaSe quantum dot assemblies
Y.K. Verma,R. H. Inman,Christopher G. L. Ferri,Hoda Mirafzal,Sayantani Ghosh,David F. Kelley,Linda S. Hirst,Somnath Ghosh,W. C. Chin +8 more
TL;DR: In this paper, the formation and spatial modulation of strongly coupled gallium selenide quantum dot (QD) nanoassemblies suspended in a nematic liquid-crystal (NLC) matrix at room temperature are demonstrated.
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Improved Efficiency of Silicon Nanoholes/Gold Nanoparticles/Organic Hybrid Solar Cells via Localized Surface Plasmon Resonance
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Journal ArticleDOI
Imaging Excited Orbitals of Quantum Dots: Experiment and Electronic Structure Theory
Lea Nienhaus,Joshua J. Goings,Duc Nguyen,Sarah Wieghold,Joseph W. Lyding,Xiaosong Li,Martin Gruebele,Martin Gruebele +7 more
TL;DR: Electronically excited orbitals play a fundamental role in chemical reactivity and spectroscopy, and electronic structure modeling of a small PbS QD reveals Stark tuning and variation in the transition moment of different parity states, supporting the simple one-electron experimental interpretation in the hot carrier limit.
Journal ArticleDOI
Colloidal nanoplatelets: Energy transfer is speeded up in 2D.
TL;DR: When efficient energy transfer under high carrier densities is required, two-dimensional nanoplatelets are the material of choice, combining an exceptional suppression of nonlinear fluorescence quenching with ultrafast transfer capabilities.
Journal ArticleDOI
Calibration of 2-D soil zymography for correct analysis of enzyme distribution.
Andrey Guber,Alexandra Kravchenko,Alexandra Kravchenko,Bahar S. Razavi,Bahar S. Razavi,Evgenia Blagodatskaya,Yakov Kuzyakov +6 more
TL;DR: In this paper, a pixel-based approach for 2D soil zymography is proposed to calculate the real distribution of enzyme activity in soil. But the approach is based on a piecewise linear regression.