A. Poruba scite author profile

This letter reports on highly sensitive optical absorption measurements on organic donor-acceptor solar cells, using Fourier-transform photocurrent spectroscopy ͑FTPS͒. The spectra cover an unprecedented dynamic range of eight to nine orders of magnitude making it possible to detect defect and disorder related sub-band gap transitions. Direct measurements on fully encapsulated solar cells with an active layer of poly͓2-methoxy-5-͑3Ј ,7Ј -dimethyl-octyloxy͔͒-p-phenylene-vinylene:͑6,6͒-phenyl-C61-butyric-acid ͑1:4 weight ratio͒ enabled a study of the intrinsic defect generation due to UV illumination. Solar cell temperature annealing effects in poly͑3-hexylthiophene͒:PCBM ͑1:2 weight ratio͒ cells and the induced morphological changes are related to the changes in the absorption spectrum, as determined with FTPS.

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Optical absorption and light scattering in microcrystalline silicon thin films and solar cells

Poruba

et al. 2000

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Optical characterization methods were applied to a series of microcrystalline silicon thin films and solar cells deposited by the very high frequency glow discharge technique. Bulk and surface light scattering effects were analyzed. A detailed theory for evaluation of the optical absorption coefficient ␣ from transmittance, reflectance and absorptance ͑with the help of constant photocurrent method͒ measurements in a broad spectral region is presented for the case of surface and bulk light scattering. The spectral dependence of ␣ is interpreted in terms of defect density, disorder, crystalline/amorphous fraction and material morphology. The enhanced light absorption in microcrystalline silicon films and solar cells is mainly due to a longer optical path as the result of an efficient diffuse light scattering at the textured film surface. This light scattering effect is a key characteristic of efficient thin-film-silicon solar cells.

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Absorption loss at nanorough silver back reflector of thin-film silicon solar cells

et al. 2004

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Absorption losses at a nanorough silver back reflector of a solar cell were measured with high accuracy by photothermal deflection spectroscopy. Roughness was characterized by atomic force microscopy. The observed increase of absorption, compared to the smooth silver, was explained by the surface plasmon absorption. Two series of silver back reflectors ͑one covered with thin ZnO layer͒ were investigated and their absorption related to surface morphology.

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A. Poruba

Observation of the subgap optical absorption in polymer-fullerene blend solar cells

Optical absorption and light scattering in microcrystalline silicon thin films and solar cells

Absorption loss at nanorough silver back reflector of thin-film silicon solar cells

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