Browsing by Author "Hernandez-Martinez, Pedro L."
Now showing items 1-5 of 5
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Efficient exciton transfer from an epitaxial quantum well to an energy gradient structure composed of layer-by-layer assembled colloidal quantum dots
Nizamoğlu, Sedat; Hernandez-Martinez, Pedro L.; Mutlugün, Evren; Demir, Hilmi Volkan (American Physical Society, 2012)Efficient Exciton Transfer from an Epitaxial Quantum Well to an Energy Gradient Structure Composed of Layer-by-Layer Assembled Colloidal Quantum Dots SEDAT NIZAMOGLU1 , Bilkent University, PEDRO LUDWIG HERNANDEZ MARTINEZ, ... -
Excitonic energy transfer dynamics in hybrid organic/inorganic nanocomposites at high loading levels
Güzeltürk, Burak; Hernandez-Martinez, Pedro L.; Tuncel, Dönüş; Demir, Hilmi Volkan (Optical Society of America, 2012)Temperature dependent exciton migration in the hybrid nanocomposites of conjugated polymers chemically integrated with quantum dots is studied at high loading levels. The underlying interplay between the exciton transfer ... -
Excitonics of hybrid nanostructures arranged with mixed dimensionality
Hernandez-Martinez, Pedro L.; Govorov, A. O.; Demir, Hilmi Volkan (American Physical Society, 2012)We present a complete study of the F\"{o}rster-type nonradiative energy transfer in hybrid nanostructures composed of nanoparticles, nanowires and quantum wells, and investigate the effects of quantum confinement in different ... -
Optically excited exciton transfer of spherical quantum dots via optical near-field ınteractions
Togay, Amirahmadov; Hernandez-Martinez, Pedro L.; Demir, Hilmi Volkan (American Physical Society, 2012)We study a system composed of a mixture of different-sized spherical quantum dots (QDs) involving optical near-field (ONF) interactions to induce effective optical excitation transfer. Here energy transfer was explained ... -
Phonon-assisted nonradiative energy transfer from colloidal quantum dots to monocrystalline bulk silicon
Yeltik, Aydan; Güzeltürk, Burak; Hernandez-Martinez, Pedro L.; Demir, Volkan Demir (IEEE, 2012)Silicon is one of the most dominant materials in photovoltaics. To increase optical absorption of silicon solar cells, colloidal quantum dots (QDs) have been proposed as a good sensitizer candidate owing to their favorably ...