New near-IR effect due to an amorphized substructure inserted in a c-Si solar-cell emitter

A planar nanostructure inserted by P-ion implantation within a silicon wafer transforms its optical and electronic properties. An amorphized substructure with abrupt a-Si/c-Si interfaces is formed. Recently, a solar-efficiency improvement by superposition of the a-Si and c-Si phases has been shown,...

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Bibliographic Details
Published in:Solar energy materials and solar cells 2002-04, Vol.72 (1), p.621-628
Main Authors: Kuznicki, Z.T., Ley, M.
Format: Article
Language:English
Subjects:
Active substructure
Applied sciences
Band structure
Energy
Exact sciences and technology
Extrinsic energy band
Infrared radiation
Ion implantation
Multi-interface solar cell
Nanoscale modification
Nanostructured materials
Natural energy
Phonons
Photovoltaic conversion
Post-implantation defects
Quantum efficiency
Silicon wafers
Solar cells. Photoelectrochemical cells
Solar energy
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Summary:A planar nanostructure inserted by P-ion implantation within a silicon wafer transforms its optical and electronic properties. An amorphized substructure with abrupt a-Si/c-Si interfaces is formed. Recently, a solar-efficiency improvement by superposition of the a-Si and c-Si phases has been shown, thanks to the so-called HIT design. In this paper, we report on a large internal quantum efficiency (IQE) improvement in the near-IR ( λ>900 nm) for a series of multi-interface solar cell models. The IR-IQE modification is due, on the one hand, to increased IR absorption and on the other hand, to photogeneration in the presence of thermal phonons via an extrinsic energy band that results from the useful post-implantation defects in the cell. We show that the near-IR modification changes with ambient temperature. This could be related to an evolution of the phonon energy distribution, which would increase the probability of carrier generation with the participation of phonons.
ISSN:0927-0248
1879-3398
DOI:10.1016/S0927-0248(01)00212-4