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Your search keyword '"Larissa Levina"' showing total 6 results
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6 results on '"Larissa Levina"'

1. Solar Cells Using Quantum Funnels.

Author

Illan J. Kramer, Larissa Levina, Ratan Debnath, David Zhitomirsky, and Edward H. Sargent

Subjects
*SOLAR cells, *QUANTUM theory, *SEMICONDUCTORS, *BAND gaps, *PHOTOELECTRONS, *OPTOELECTRONIC devices, *CONDENSED matter, *ELECTRON transport
Abstract

Colloidal quantum dots offer broad tuning of semiconductor bandstructure via the quantum size effect. Devices involving a sequence of layers comprised of quantum dots selected to have different diameters, and therefore bandgaps, offer the possibility of funneling energy toward an acceptor. Here we report a quantum funnel that efficiently conveys photoelectrons from their point of generation toward an intended electron acceptor. Using this concept we build a solar cell that benefits from enhanced fill factor as a result of this quantum funnel. This concept addresses limitations on transport in soft condensed matter systems and leverages their advantages in large-area optoelectronic devices and systems. [ABSTRACT FROM AUTHOR]

Published
2011
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4. Sensitive Solution-Processed Bi2S3Nanocrystalline Photodetectors.

Author

Gerasimos Konstantatos, Larissa Levina, Jiang Tang, and Edward H. Sargent

Subjects
*NANOCRYSTALS, *SOLUTION (Chemistry), *OPTOELECTRONIC devices, *PHOTOCONDUCTIVITY, *WAVELENGTHS, *NANOSTRUCTURED materials, *BISMUTH compounds
Abstract

Solution-processed nanocrystal optoelectronic devices offer large-area coverage, low cost, and compatibility with a wide range of substrates. Recently, photodetectors and photovoltaics based on spin-coated nanoparticle films have shown tremendous progress in performance. However, high-performance devices reported to date have employed either Pb or Cd, raising concerns regarding environmental impact and regulatory acceptance. Herein we report a high-performance solution-processed photodetector based instead on Bi 2S 3nanocrystals. The devices exhibit photoconductive gain on the order of 10 combined with temporal response on the 10 ms time scale. The resultant solution-processed Bi 2S 3nanorod photoconductive photodetectors are of interest in visible and near-infrared (NIR) wavelength applications requiring video-frame-rate temporal response. [ABSTRACT FROM AUTHOR]

Published
2008
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5. Engineering the Temporal Response of Photoconductive Photodetectors via Selective Introduction of Surface Trap States.

Author

Gerasimos Konstantatos, Larissa Levina, Armin Fischer, and Edward H. Sargent

Subjects
*PHOTOCONDUCTIVITY, *OPTOELECTRONIC devices, *SURFACE chemistry, *QUANTUM dots
Abstract

Photoconductive photodetectors fabricated using simple solution-processing have recently been shown to exhibit high gains (>1000) and outstanding sensitivities ( D* > 10 13Jones). One ostensible disadvantage of exploiting photoconductive gain is that the temporal response is limited by the release of carriers from trap states. Here we show that it is possible to introduce specific chemical species onto the surfaces of colloidal quantum dots to produce only a single, desired trap state having a carefully selected lifetime. In this way we demonstrate a device that exhibits an attractive photoconductive gain (>10) combined with a response time (∼25 ms) useful in imaging. We achieve this by preserving a single surface species, lead sulfite, while eliminating lead sulfate and lead carboxylate. In doing so we preserve the outstanding sensitivity of these devices, achieving a specific detectivity of 10 12Jones in the visible, while generating a temporal response suited to imaging applications. [ABSTRACT FROM AUTHOR]

Published
2008
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