Search Results - "Williams, Kenrick J"

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  1. 1
    Hot-Electron Transfer from Semiconductor Nanocrystals

    Hot-Electron Transfer from Semiconductor Nanocrystals by Tisdale, William A, Williams, Kenrick J, Timp, Brooke A, Norris, David J, Aydil, Eray S, Zhu, X.-Y

    “…In typical semiconductor solar cells, photons with energies above the semiconductor bandgap generate hot charge carriers that quickly cool before all of their…”
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  2. 2
    Hot Electron Injection from Graphene Quantum Dots to TiO2

    Hot Electron Injection from Graphene Quantum Dots to TiO2 by Williams, Kenrick J, Nelson, Cory A, Yan, Xin, Li, Liang-Shi, Zhu, Xiaoyang

    Published in ACS nano (26-02-2013)
    “…The Shockley–Queisser limit is the maximum power conversion efficiency of a conventional solar cell based on a single semiconductor junction. One approach to…”
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  3. 3
    Hot charge-transfer excitons set the time limit for charge separation at donor/acceptor interfaces in organic photovoltaics

    Hot charge-transfer excitons set the time limit for charge separation at donor/acceptor interfaces in organic photovoltaics by Jailaubekov, Askat E., Willard, Adam P., Tritsch, John R., Chan, Wai-Lun, Sai, Na, Gearba, Raluca, Kaake, Loren G., Williams, Kenrick J., Leung, Kevin, Rossky, Peter J., Zhu, X-Y.

    Published in Nature materials (01-01-2013)
    “…Photocurrent generation in organic photovoltaics (OPVs) relies on the dissociation of excitons into free electrons and holes at donor/acceptor…”
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  4. 4
    Strong Electronic Coupling in Two-Dimensional Assemblies of Colloidal PbSe Quantum Dots

    Strong Electronic Coupling in Two-Dimensional Assemblies of Colloidal PbSe Quantum Dots by Williams, Kenrick J, Tisdale, William A, Leschkies, Kurtis S, Haugstad, Greg, Norris, David J, Aydil, Eray S, Zhu, X.-Y

    Published in ACS nano (23-06-2009)
    “…Thin films of colloidal PbSe quantum dots can exhibit very high carrier mobilities when the surface ligands are removed or replaced by small molecules, such as…”
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  5. 5
    Hot Electron Injection from Graphene Quantum Dots to TiO 2

    Hot Electron Injection from Graphene Quantum Dots to TiO 2 by Williams, Kenrick J., Nelson, Cory A., Yan, Xin, Li, Liang-Shi, Zhu, Xiaoyang

    Published in ACS nano (26-02-2013)
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  6. 6
    Hot Electron Injection from Graphene Quantum Dots to TiO sub(2)

    Hot Electron Injection from Graphene Quantum Dots to TiO sub(2) by Williams, Kenrick J, Nelson, Cory A, Yan, Xin, Li, Liang-Shi, Zhu, Xiaoyang

    Published in ACS nano (06-02-2013)
    “…The Shockley-Queisser limit is the maximum power conversion efficiency of a conventional solar cell based on a single semiconductor junction. One approach to…”
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  7. 7
    Probing ultrafast charge separation at organic donor/acceptor interfaces by a femtosecond electric field meter

    Probing ultrafast charge separation at organic donor/acceptor interfaces by a femtosecond electric field meter by Kaake, L. G., Jailaubekov, A., Williams, K. J., Zhu, X.-Y.

    Published in Applied physics letters (22-08-2011)
    “…Charge separation at organic donor/acceptor interfaces is a key step in the functioning of an organic photovoltaic cell, but experimental techniques that…”
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  8. 8
    Hot charge-transfer excitons set the time limit for charge separation at donor/acceptor interfaces in organic photovoltaics

    Hot charge-transfer excitons set the time limit for charge separation at donor/acceptor interfaces in organic photovoltaics by Jailaubekov, Askat E., Willard, Adam P., Tritsch, John R., Chan, Wai-Lun, Sai, Na, Gearba, Raluca, Kaake, Loren G., Williams, Kenrick J., Leung, Kevin, Rossky, Peter J., Zhu, X-Y.

    Published in Nature materials (09-12-2012)
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  9. 9
    Hot electron injection from graphene quantum dots to TiO

    Hot electron injection from graphene quantum dots to TiO by Williams, Kenrick J, Nelson, Cory A, Yan, Xin, Li, Liang-Shi, Zhu, Xiaoyang

    Published in ACS nano (26-02-2013)
    “…The Shockley-Queisser limit is the maximum power conversion efficiency of a conventional solar cell based on a single semiconductor junction. One approach to…”
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