Patent application number | Description | Published |
20100307415 | SEMICONDUCTOR PROCESSING REACTOR AND COMPONENTS THEREOF - A reactor having a housing that encloses a gas delivery system operatively connected to a reaction chamber and an exhaust assembly. The gas delivery system includes a plurality of gas lines for providing at least one process gas to the reaction chamber. The gas delivery system further includes a mixer for receiving the at least one process gas. The mixer is operatively connected to a diffuser that is configured to diffuse process gases. The diffuser is attached directly to an upper surface of the reaction chamber, thereby forming a diffuser volume therebetween. The diffuser includes at least one distribution surface that is configured to provide a flow restriction to the process gases as they pass through the diffuser volume before being introduced into the reaction chamber. The reaction chamber defines a reaction space in which a semiconductor substrate is disposed for processing. The exhaust assembly is operatively connected to the reaction chamber for withdrawing unreacted process gases and effluent from the reaction space. | 12-09-2010 |
20110268879 | APPARATUS AND METHOD FOR HIGH-THROUGHPUT ATOMIC LAYER DEPOSITION - Atomic layer deposition apparatus for depositing a film in a continuous fashion. The apparatus includes a downwardly sloping process tunnel, extending in a transport direction and bounded by at least two tunnel walls. Both walls are provided with a plurality of gas injection channels, whereby the gas injection channels in at least one of the walls, viewed in the transport direction, are connected successively to a first precursor gas source, a purge gas source, a second precursor gas source and a purge gas source respectively, so as to create a series of tunnel segments that—in use—comprise successive zones containing a first precursor gas, a purge gas, a second precursor gas and a purge gas, respectively. The downward slope of the process tunnel enables gravity to drive the floatingly supported substrates through the successive segments, causing the atomic layer deposition of a film onto the substrates. | 11-03-2011 |
20110308460 | ATOMIC LAYER DEPOSITION APPARATUS - The present invention relates to an ALD apparatus, and particularly relates to an ALD apparatus that is suitable for rapidly depositing a thin film on a substrate having an actual area that is larger than a planar substrate. In the reaction chamber of the ALD apparatus according to an exemplary embodiment of the present invention, more gas is supplied to a portion where more gas is required by having differences in the space for gas to flow rather than supplying the gas in a constant flux and a constant flow velocity such that the time required for supplying reactant gases and waste of reactant gases may be minimized to increase productivity of the ALD apparatus. The ceiling of the reaction space is shaped to provide a nonuniform gap over the substrate. | 12-22-2011 |
20120266821 | REACTION SYSTEM FOR GROWING A THIN FILM - An atomic deposition (ALD) thin film deposition apparatus includes a deposition chamber configured to deposit a thin film on a wafer mounted within a space defined therein. The deposition chamber comprises a gas inlet that is in communication with the space. A gas system is configured to deliver gas to the gas inlet of the deposition chamber. At least a portion of the gas system is positioned above the deposition chamber. The gas system includes a mixer configured to mix a plurality of gas streams. A transfer member is in fluid communication with the mixer and the gas inlet. The transfer member comprising a pair of horizontally divergent walls configured to spread the gas in a horizontal direction before entering the gas inlet. | 10-25-2012 |