Tuesday, June 11, 2013

1306.1856 (Marco Govoni et al.)

Carrier multiplication between interacting nanocrystals for fostering
silicon-based photovoltaics
   [PDF]

Marco Govoni, Ivan Marri, Stefano Ossicini
Being a source of clean and renewable energy, the possibility to convert solar radiation in electric current with high efficiency is one of the most important topics of modern scientific research. Currently the exploitation of interaction between nanocrystals seems to be a promising route to foster the establishment of third generation photovoltaics. Here we adopt a fully ab-initio scheme to estimate the role of nanoparticle interplay on the carrier multiplication dynamics of interacting silicon nanocrystals. Energy and charge transfer-based carrier multiplication events are studied as a function of nanocrystal separation showing benefits induced by the wavefunction sharing regime. We prove the relevance of these recombinative mechanisms for photovoltaic applications in the case of silicon nanocrystals arranged in dense arrays, quantifying at an atomistic scale which conditions maximize the outcome.
View original: http://arxiv.org/abs/1306.1856

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