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Solar cell and method for manufacturing the same

In this paper, a solar cell and a method for manufacturing the same is described, which includes a substrate of a first conductive type, an anti-reflection layer that is positioned on the substrate and is formed of a transparent conductive oxide material.
A solar cell and a method for manufacturing the same are disclosed. The solar cell includes a substrate of a first conductive type, an anti-reflection layer that is positioned on the substrate and is formed of a transparent conductive oxide material, a plurality of emitter layers on the substrate, the plurality of emitter layers being of a second conductive type opposite the first conductive type, a plurality of first electrodes on the plurality of emitter layers, and a plurality of second electrodes that are electrically connected to the substrate and are positioned to be spaced apart from the plurality of first electrodes. The first electrodes and the second electrodes are positioned on the same surface of the substrate.

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Apparatus for transmitting broadcast signals, apparatus for receiving broadcast signals, method for transmitting broadcast signals and method for receiving broadcast signals

TL;DR: In this article, a method and an apparatus for transmitting broadcast signals thereof are disclosed, which includes encoding DP data according to a code rate, bit interleaving the LDPC encoded DP data, mapping the bit-interleaved DP data onto constellations, MIMO (Multi Input Multi Output) encoding the mapped DP data.

Light absorption and filtering properties of vertically oriented semiconductor nano wires

TL;DR: In this article, a nanowire array is described, which consists of a substrate and a plurality of nanowires extending essentially vertically from the substrate, each of which has uniform chemical along its entire length.

Solar cell module

TL;DR: A solar cell module includes two solar cells, each including an photoelectric conversion body 10a, 10b having first and second main faces and generating photogenerated carriers, and a wiring member 2a for electrically connecting the first electrode of one of the solar cells to the second electrode of the other solar cell as mentioned in this paper.

Solar cell and method for fabricating the same

TL;DR: In this paper, a technique for fabricating a solar cell includes an n + emitter region first being formed on a front surface of the cell, and then front and rear insulating layers being created on both sides of the cells.

Solar cell and manufacturing method thereof

TL;DR: In this article, a method for forming a doped region in a solar cell includes preparing a first and second surface of a substrate, forming a first region doped with a first dopant in a part of the first surface and forming a silicon oxide layer on the first region.
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Handbook of Optical Constants of Solids

TL;DR: In this paper, E.D. Palik and R.R. Potter, Basic Parameters for Measuring Optical Properties, and W.W.Hunter, Measurement of Optical Constants in the Vacuum Ultraviolet Spectral Region.
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22.8% efficient silicon solar cell

TL;DR: In this paper, a new silicon solar cell structure, the passivated emitter and rear cell, is described, which yields independently confirmed efficiencies of up to 22.8%, the highest ever reported for a silicon cell.

Method for Manufacturing Semiconductor Device

TL;DR: In this paper, a method for manufacturing a semiconductor device is described, which includes forming an energy cured resin layer on semiconductor substrate having an electrode pad and a passivation film, fusing the resin layer so that fusion of a surface section is progressed more than of a central section by a first energy supply processing.
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On the c-Si surface passivation mechanism by the negative-charge-dielectric Al2O3

TL;DR: In this article, the authors demonstrate that the surface passivation of Al2O3 can be related to a satisfactory low interface defect density in combination with a strong field-effect passivation induced by a negative fixed charge density.
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High efficiency n-type Si solar cells on Al2O3-passivated boron emitters

TL;DR: In this paper, negative charge dielectric Al2O3 was applied as surface passivation layer on high-efficiency n-type silicon solar cells, achieving a confirmed conversion efficiency of 23.2% on B-doped emitters.