498 research outputs found

    Economic inequality and industrialization on the continent: introductory comments

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    In dem Beitrag werden einführende Überlegungen zum Problem der Einkommensungleichheit und der Industrialisierung auf dem europäischen Kontinent vorgestellt. Es wird begründet, warum eine Geschichte der Einkommensungleichheit während der Industrialisierung geschrieben werden sollte. Dabei werden folgende Fragen angesprochen: Kann das Modell der 'sozialen Frage' in den historischen Erfahrungen Kontinentaleuropas gefunden werden? Gibt es signifikante Unterschiede zwischen den US-amerikanischen und den britischen Erfahrungen? Welche Art von Daten und Ungleichheits-Indikatoren ist verfügbar für die Analyse? Gibt es eine systematische Beziehung zwischen den Trends regionaler und nationaler Ungleichheiten? Wie sehen die Ursachen und Konsequenzen wirtschaftlicher Ungleichheit aus? Dazu werden verschiedene Forschungsansätze vorgestellt. (KW

    Modellierung von Verschlämmung und Infiltration in landwirtschaftlich genutzten Einzugsgebieten

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    Seit Anfang der deterministischen Hydrologie im vorigen Jahrhundert sind zahlreiche Modelle entwickelt worden, um hydrologische Vorgänge zu beschreiben. Dabei wird in einem Modell versucht, den meist sehr komplex verlaufenden Prozeß des Wasserkreislaufs an der Landoberfläche auf einzelne Grundannahmen zu vereinfachen und über numerische Algorithmen quantitativ zu beschreiben. Die vorliegende Arbeit konzentriert sich auf die Entstehung des Gebietsabflusses aus dem im Einzugsgebiet gefallenen Niederschlag

    Failure stress of epitaxial silicon thin films

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    Ultra-thin silicon wafer have to withstand forces and stresses during handling procedures without breakage. Here we investigate the failure stresses of ?30 ?m thick monocrystalline silicon films produced with the porous silicon process by use of a three line bending setup. We use a finite element simulation in order to evaluate the experiments and conclude that the porous silicon layers break at stresses comparable to those of silicon wafers with standard thickness. The edge preparation has a large impact on the failure stress. For samples with manually cleaved edges the failure stress surpasses 600 MPa, which is the largest stress that is accessible with our testing setup

    Multilayer etching for kerf-free solar cells from macroporous silicon

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    Kerf-free techniques for subdividing a single thick crystalline Si wafer into a multitude of thin Si layers have a large potential for cost reductions. In this paper, we explore pore formation in Si for separating many 18 ÎĽm-thick surface-textured layers from a thick wafer with a single etching process. We demonstrate the fabrication and separation of four macroporous Si layers in a single etching step. Generating many instead of single macroporous layers per etching step improves the economics of the macroporous Si process. We present our etching process that maintains the pore pattern defined by photolithography even after etching many absorber and separation layers.Federal Ministry for Environment, Nature Conservation, and Nuclear Safety/FKZ 032514

    Lift-off of free-standing layers in the kerfless porous silicon process

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    We discuss the lift-off of free-standing epitaxially grown silicon layers from the porous silicon (PSI) process, which is a kerfless wafering technology. The lift-off is a crucial step in the PSI cycle. A high-porosity layer serves as a mechanically weak layer for lift-off and consists of widely spaced silicon bridges with thicknesses of 40-100 nm. The low width leads to a 33-fold stress enhancement in the bridges, making them break when a force is applied while the epitaxial layer and the substrate remain intact. We perform the free-standing lift-off with a curved vacuum chuck. A vacuum pressure of 0.2 bar is sufficient for controlled peeling off of the 30-50 um thick silicon layers. We simulate the stresses and the displacements of the epitaxial layer in the lift-off process close to the first non-broken bridge. We demonstrate the defect-free lift-off of 8 of 9 of 9 Ă— 9 cm2 layers from 6" substrates.Renewable Energy Corporatio

    Lifetime Analysis for Defect Characterization in Kerfless Epitaxial Silicon from the Porous Silicon Process

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    Kerfless epitaxial silicon from the porous silicon (PSI) process is a promising alternative for standard wafers. They allow the reduction of PV costs by combining high material quality at reduced production costs. We evaluate the minority carrier lifetime of p-type and n-type epitaxial silicon layers fabricated with the PSI process by means of photoconductance decay measurements. For p-type layers we observe a strong injection dependence of the lifetime that we attribute to bulk Shockley-Read-Hall (SRH) recombination. We determine two limiting defects K3.6 and K157 that describe the injection dependence of 9 samples grown in one batch. Defect K3.6 has a symmetry factor of k=3.6 and is similarly concentrated in all 9 investigated samples. Its concentration decreases upon high temperature processing with and without phosphorous diffusion. The defect K157 has a symmetry factor of k=157 and a higher concentration in samples with a higher porosity in the starting layer. As a consequence of the k-factors being larger than unity the identified defects are less detrimental in n-type silicon than p-type silicon. Accordingly, we fabricate n-type epitaxial layers for which we measure effective lifetimes up to 1330±130 μs at Δp = 1015 cm –3

    Kerfless exfoliated thin crystalline Si wafers with Al metallization layers for solar cells

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    We report on a kerfless exfoliation approach to further reduce the costs of crystalline silicon photovoltaics making use of evaporated Al as a double functional layer. The Al serves as the stress inducing element to drive the exfoliation process and can be maintained as a rear contacting layer in the solar cell after exfoliation. The 50-70 μm thick exfoliated Si layers show effective minority carrier lifetimes around 180 μs with diffusion lengths of 10 times the layer thickness. We analyze the thermo-mechanical properties of the Al layer by x-ray diffraction analysis and investigate its influence on the exfoliation process. We evaluate the approach for the implementation into solar cell production by determining processing limits and estimating cost advantages of a possible solar cell design route. The Al-Si bilayers are mechanically stable under processing conditions and exhibit a moderate cost savings potential of 3-36% compared to other c-Si cell concepts. © Materials Research Society 2015

    Thin crystalline macroporous silicon solar cells with ion implanted emitter

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    We separate a (34 ± 2) μm-thick macroporous Si layer from an n-type Si wafer by means of electrochemical etching. The porosity is p = (26.2 ± 2.4)%. We use ion implantation to selectively dope the outer surfaces of the macroporous Si layer. No masking of the surface is required. The pores are open during the implantation process. We fabricate a macroporous Si solar cell with an implanted boron emitter at the front side and an implanted phosphorus region at the rear side. The short-circuit current density is 34.8 mA cm-2 and the open-circuit voltage is 562 mV. With a fill factor of 69.1% the cell achieves an energy-conversion efficiency of 13.5%.Federal Ministry for Environment, Nature Conservation, and Nuclear Safety/FKZ 032514

    Laser-welded interconnection of screen-printed Si solar cells

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    We demonstrate the laser welding of Al interconnects to the BSF rear-side of screen-printed two-side-contacted solar cells. The Al paste on the rear side of solar cell is laser-welded to an Al foil. This reduces the silver consumption of the solar cells by making silver pads on the rear side obsolete. Our proof-of-concept modules are free of laser damage. A 3-cell-module from 6" solar cells shows no change in fill factor within the statistical measurement uncertainty after artificial aging in 500 humidityfreeze cycles.German Ministry for the Environment, Nature Conservation, and Reactor Safety/0325192State of Lower Saxon
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