The invention relates to a coating composition for making a porous inorganic oxide coating layer on a substrate, the composition comprising an inorganic oxide precursor as binder, a solvent, and a synthetic polyampholyte as pore forming agent. The size of the pores in the coating can be advantageously controlled by the comonomer composition of the polyampholyte, and/or by selecting conditions like temperature, pH, salt concentration, and solvent composition when making the composition. The invention also relates to a method of making such coating composition, to a process of applying a coating on a substrate using such composition, and to such coated substrate showing a specific combination of optical and mechanical properties.

A solar cell includes a substrate; a first passivation layer on a first surface of the substrate; a first field region on the first surface of the substrate; an anti-reflection layer on the first passivation layer; a second passivation layer on a second surface of the substrate; an emitter region on the second passivation layer, the emitter region forming a p-n junction and a hetero-junction junction with the substrate; a second field region on the second passivation layer, the second field region forming a hetero-junction with the substrate; a first electrode contacted to the emitter region; a second electrode contacted to the second field region; a spacing between the emitter region and the second field region; and a third passivation layer on the second surface of the substrate at the spacing.

A silicon solar cell has doped amorphous silicon contacts formed on a tunnel silicon oxide layer on a surface of a silicon substrate. High temperature processing is unnecessary in fabricating the solar cell.

The invention relates to a device and a method for trimming a float glass strip that has a normal or structured surface, comprising the following features: a) a cutting slide having a lower running rail and a cutting slide having an upper running rail for a bottom cut for a structured surface or a top cut for a normal surface, wherein both running rails are arranged at an acute angle to the running direction of the glass strip and this angled position can be adjusted; b) a number of counter pressure rollers for the lower cutting slide; c) a hold-down apparatus (6) having a breaking roller (20) and a front hold-down roller (21) for a bottom cut; d) a hold-down apparatus (15) having a breaking roller (14) and a rear hold-down roller (18) for a top cut; e) apparatuses (10, 11, 12) for measuring the advance speed of the glass strip (11) and the current length of the glass strip.

A method for roughening silicon substrate surface includes providing a silicon substrate having a waiting-for-etching surface, the waiting-for-etching surface has a plurality of first and second areas; forming a plurality of covering bumps on the first areas, and a gap is formed between each of the covering bumps and each of the first areas; and etching the waiting-for-etching solution by a anisotropic etching solution. The anisotropic etching solution permeates into each of the first areas through the gap to lead the etching time of the first areas is shorter than that of the second areas, so the waiting-for-etching surface becomes a undulate surface having a plurality of undulate structures because the etching depth of the first areas is smaller than that of the second areas.

A method for manufacturing a solar cell may include forming a textured structure including multiple convex parts by etching a crystalline silicon substrate with etching liquid and forming an amorphous silicon layer on the crystalline silicon substrate with the textured structure formed thereon, by chemical vapor deposition or sputtering. An alkaline solution including at least one of a solution of sodium hydroxide and a solution of potassium hydroxide, additive including at least one of 4-propylbenzoic acid, 4-t-butylbenzoic acid, 4-n-butylbenzoic acid, 4-pentylbenzoic acid, 4-butoxybenzonic acid, 4-n-octylbenzenesulfonic acid, caprylic acid, and lauric acid may be added to the etching liquid. The textured structure may a chamfered section between main sloped surfaces of the convex parts, and a sharp trough part which is sandwiched by adjacent multiple convex parts.

A device and method of making an amorphous-silicon/inorganic thin film tandem solar cell including the steps of depositing a textured oxide buffer layer on an amorphous substrate, depositing a crystalline inorganic semiconductor film from a eutectic alloy on the buffer layer, and depositing an amorphous film on the crystalline inorganic film, the amorphous film forming a p-n junction with the crystalline inorganic semiconductor for a solar cell device.

There is provided an imprint material that allows a resin film to be readily released from a mold at the time of mold release after curing, that is, an imprint material that forms a film having a low mold release property as well as high transparency, high scratch resistance, and a high fingerprint wiping-off property; and a film which is formed from the material and to which a pattern is transferred. An imprint material including: a (A) component: a compound having a propylene oxide unit and two polymerizable groups or a compound having a propylene oxide unit, an ethylene oxide unit, and two polymerizable groups; a (B) component: a silicone compound; and a (C) component: a photopolymerization initiator.

A semiconductor device includes a base, a semiconductor element disposed on the base, a resist layer formed on the base, and a resin-sealed portion covering the semiconductor element and the resist layer. A plurality of concave portions is formed in the resist layer, and each of the plurality of concave portions is filled with a part of the resin-sealed portion.

Embodiments generally relate to optoelectronic devices and more specifically, to textured layers in optoelectronic devices. In one embodiment, a method for providing a textured layer in an optoelectronic device includes depositing a first layer of a first material and depositing an island layer of a second material on the first layer. Depositing the island layer includes forming one or more islands of the second material to provide at least one textured surface of the island layer, where the textured surface is operative to cause scattering of light.