Patent application number | Description | Published |
20080305643 | Method For the Removal of Doped Surface Layers on the Back Faces of Crystalline Silicon Solar Wafers - The invention relates to a method for the one-sided removal of a doped surface layer on rear sides of crystalline silicon solar wafers. In accordance with the object set, doped surface layers should be able to be removed from rear sides of such solar wafers in a cost-effective manner and with a handling which is gentle on the substrate. In addition, the front side should not be modified. In accordance with the invention, an etching gas is directed onto the rear side surface of silicon solar wafers with a plasma atmospheric pressure. | 12-11-2008 |
20080314288 | Mixture For Doping Semiconductors - A doping mixture for coating semiconductor substrates which are then subjected to a high temperature treatment to form a doped layer includes at least one p- or n-dopant, water and a mixture of two or more surfactants. At least one of the surfactants is nonionic. Also provided are a method for producing such a doping mixture and the use thereof. | 12-25-2008 |
20090071535 | ANTIREFLECTIVE COATING ON SOLAR CELLS AND METHOD FOR THE PRODUCTION OF SUCH AN ANTIREFLECTIVE COATING - Disclosed is an antireflective coating on solar cells made of crystalline silicon as well as a method for producing such an antireflective coating. The aim is to create an antireflective coating on solar cells made of crystalline silicon which makes it possible to optimize the optical and passivating properties thereof while making it possible to easily and economically integrate the production thereof into the production process especially of very thin crystalline silicon solar cells. The antireflective coating is composed of successive partial layers, i.e., a lower partial layer which covers the crystalline silicon, is embodied as an antireflective coating and as passivation with a particularly great hydrogen concentration, and is covered by an upper partial layer having an increased barrier effect against hydrogen diffusion. | 03-19-2009 |
20090133628 | VACUUM DEVICE FOR CONTINUOUS PROCESSING OF SUBSTRATES - A continuous vacuum system for processing substrates has an inlet air lock, an outlet air lock, at least one process chamber, and a device for conveying the substrates through the continuous system. To create a continuous system having a compact design and high throughput for plasma-enhanced treatment of substrates at a reduced pressure, which ensures a simple, rapid and secure handling of the substrates with a high capacity of the substrate carrier, the conveying device has at least one plasma boat in which the substrates are arranged on a base plate in a three-dimensional stack in at least one plane at a predefined distance from one another with intermediate carriers in between. At least the intermediate carriers are made of graphite or another suitable electrically conductive material and can be acted upon electrically with an alternating voltage via an electric connection. | 05-28-2009 |