Carrier multiplication is a non-radiative recombination mechanism that leads to the generation of two or more electron–hole pairs after absorption of a single photon. By reducing the occurrence of dissipative effects, this process can be exploited to increase solar cell performance. In this work, we introduce two different theoretical fully ab initio tools that can be adopted to study carrier multiplication in nanocrystals. The tools are described in detail and compared. Subsequently, we calculate carrier multiplication lifetimes in H- and OH-terminated silicon nanocrystals, pointed out the role played by the passivation on the carrier multiplication processes.
Carrier Multiplication in Silicon Nanocrystals: Theoretical Methodologies and Role of the Passivation / Marri, I.; Govoni, M.; Ossicini, S.. - In: PHYSICA STATUS SOLIDI. C, CURRENT TOPICS IN SOLID STATE PHYSICS. - ISSN 1862-6351. - 14:12(2017), pp. 1700198-1700198. [10.1002/pssc.201700198]
Carrier Multiplication in Silicon Nanocrystals: Theoretical Methodologies and Role of the Passivation
I. Marri;M. Govoni;S. Ossicini
2017
Abstract
Carrier multiplication is a non-radiative recombination mechanism that leads to the generation of two or more electron–hole pairs after absorption of a single photon. By reducing the occurrence of dissipative effects, this process can be exploited to increase solar cell performance. In this work, we introduce two different theoretical fully ab initio tools that can be adopted to study carrier multiplication in nanocrystals. The tools are described in detail and compared. Subsequently, we calculate carrier multiplication lifetimes in H- and OH-terminated silicon nanocrystals, pointed out the role played by the passivation on the carrier multiplication processes.
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