Z. Remeš scite author profile

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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Refractive indices of layers and optical simulations of Cu(In,Ga)Se₂ solar cells

Carron

Avancini

Feurer

et al. 2018

Science and Technology of Advanced Materials

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Cu(In,Ga)Se2 based solar cells have reached efficiencies close to 23%. Further knowledge-driven improvements require accurate determination of the material properties. Here, we present refractive indices for all layers in Cu(In,Ga)Se2 solar cells with high efficiency. The optical bandgap of Cu(In,Ga)Se2 does not depend on the Cu content in the explored composition range, while the absorption coefficient value is primarily determined by the Cu content. An expression for the absorption spectrum is proposed, with Ga and Cu compositions as parameters. This set of parameters allows accurate device simulations to understand remaining absorption and carrier collection losses and develop strategies to improve performances.

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Organic–Inorganic Halide Perovskites: Perspectives for Silicon-Based Tandem Solar Cells

Löper

Niesen

Moon

et al. 2014

IEEE J. Photovoltaics

127

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LYRA, a solar UV radiometer on Proba2

Hochedez

Schmutz

Stockman³

et al. 2006

Advances in Space Research

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Formation of Continuous Nanocrystalline Diamond Layers on Glass and Silicon at Low Temperatures

Kromka

Rezek

Remeš

et al. 2008

Chemical Vapor Deposition

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Nanocrystalline diamond thin films are grown on silicon and glass substrates by microwave plasma (MP)CVD from a gas mixture of methane and hydrogen at low substrate temperatures. The initial stages of diamond growth, i.e., i) the growth of individual nanometer-sized crystals and clusters, and ii) coalescence into a continuous layer, are investigated by diverse analytic techniques. Atomic force microscopy (AFM) measurements reveal nearly unchanging surface roughness up to 40 min. X-ray photoelectron spectroscopy (XPS) measurements detect changing of the surface composition from the very beginning of the growth process. The rapid carbon increase is assigned to the enlarging of the grown crystals and clusters. Scanning electron microscopy (SEM) images indicate a possible lateral growth type. The found dependences indicate that a two-dimensional growth mode takes place at low substrate temperatures. Grown nanocrystalline diamond films are optically transparent in a wide spectral range, and exhibit a high refractive index of 2.34.

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Influence of Mo doping on the luminescence properties and defect states in ZnO nanorods. Comparison with ZnO:Mo thin films

Buryi

Remeš

Babin

et al. 2021

Applied Surface Science

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Nanostructured three-dimensional thin film silicon solar cells with very high efficiency potential

Vaněček

Babchenko

Purkrt

et al. 2011

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We report on the experimental realization of amorphous/microcrystalline silicon tandem solar cells (Micromorph) based on our three-dimensional design. An enhancement is reached in the short-circuit current by 40%, with an excellent open-circuit voltage of 1.41V and a fill factor of 72%. We have used nanoholes or microholes dry etched into the ZnO front contact layer. Monte Carlo optical modeling shows that stable efficiency of amorphous silicon p-i-n solar cells in over 12% range is possible. For the Micromorph cells, efficiency over 15% with the thickness of amorphous Si below 200 nm and of microcrystalline Si around 500 nm is possible.

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Enhancing the optoelectronic properties of amorphous zinc tin oxide by subgap defect passivation: A theoretical and experimental demonstration

et al. 2017

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The link between sub-bandgap states and optoelectronic properties is investigated for amorphous zinc tin oxide (a-ZTO) thin films deposited by RF sputtering. a-ZTO samples were annealed up to 500 °C in oxidizing, neutral, and reducing atmospheres before characterizing their structural and optoelectronic properties by photothermal deflection spectroscopy, near-infrared-visible UV spectrophotometry, Hall effect, Rutherford backscattering, hydrogen forward scattering and transmission electron microscopy. By combining the experimental results with density functional theory calculations, oxygen deficiencies and resulting metal atoms clusters are identified as the source of subgap states, some of which act as electron donors but also as free electron scattering centers. The role of hydrogen on the optoelectronic properties is also discussed. Based on this detailed understanding of the different point defects present in a-ZTO, their impact on optoelectronic properties, and how they can be suppressed by postdeposition annealing treatments, an amorphous indium-free transparent conductive oxide, with a high thermal stability and an electron mobility up to 35cm2V−1s−1, is demonstrated by defect passivation

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Z. Remeš

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

Refractive indices of layers and optical simulations of Cu(In,Ga)Se₂ solar cells

Organic–Inorganic Halide Perovskites: Perspectives for Silicon-Based Tandem Solar Cells

LYRA, a solar UV radiometer on Proba2

Formation of Continuous Nanocrystalline Diamond Layers on Glass and Silicon at Low Temperatures

Influence of Mo doping on the luminescence properties and defect states in ZnO nanorods. Comparison with ZnO:Mo thin films

Nanostructured three-dimensional thin film silicon solar cells with very high efficiency potential

Enhancing the optoelectronic properties of amorphous zinc tin oxide by subgap defect passivation: A theoretical and experimental demonstration

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Resources

About

Z. Remeš

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

Refractive indices of layers and optical simulations of Cu(In,Ga)Se2 solar cells

Organic–Inorganic Halide Perovskites: Perspectives for Silicon-Based Tandem Solar Cells

LYRA, a solar UV radiometer on Proba2

Formation of Continuous Nanocrystalline Diamond Layers on Glass and Silicon at Low Temperatures

Influence of Mo doping on the luminescence properties and defect states in ZnO nanorods. Comparison with ZnO:Mo thin films

Nanostructured three-dimensional thin film silicon solar cells with very high efficiency potential

Enhancing the optoelectronic properties of amorphous zinc tin oxide by subgap defect passivation: A theoretical and experimental demonstration

Contact Info

Product

Resources

About

Refractive indices of layers and optical simulations of Cu(In,Ga)Se₂ solar cells