Patent application number | Description | Published |
20090004370 | Metal Inks, Methods of Making the Same, and Methods for Printing and/or Forming Metal Films - Printable metal formulations, methods of making the formulations, and methods of coating or printing thin films from metal ink precursors are disclosed. The metal formulation generally includes one or more Group 4, 5, 6, 7, 8, 9, 10, 11, or 12 metal salts or metal complexes, one or more solvents adapted to facilitate coating and/or printing of the formulation, and one or more optional additives that form (only) gaseous or volatile byproducts upon reduction of the metal salt or metal complex to an elemental metal and/or alloy thereof. The formulation may be made by combining the metal salt(s) or metal complex(es) and the solvent(s), and dissolving the metal salt(s) or metal complex(es) in the solvent(s) to form the formulation. Thin films may be made by coating or printing the metal formulation on a substrate; removing the solvents to form a metal-containing precursor film; and reducing the metal-containing precursor film. | 01-01-2009 |
20090020829 | PRINTING OF CONTACT METAL AND INTERCONNECT METAL VIA SEED PRINTING AND PLATING - Methods of forming contacts (and optionally, local interconnects) using an ink comprising a silicide-forming metal, electrical devices such as diodes and/or transistors including such contacts and (optional) local interconnects, and methods for forming such devices are disclosed. The method of forming contacts includes depositing an ink of a silicide-forming metal onto an exposed silicon surface, drying the ink to form a silicide-forming metal precursor, and heating the silicide-forming metal precursor and the silicon surface to form a metal silicide contact. Optionally, the metal precursor ink may be selectively deposited onto a dielectric layer adjacent to the exposed silicon surface to form a metal-containing interconnect. Furthermore, one or more bulk conductive metal(s) may be deposited on remaining metal precursor ink and/or the dielectric layer. Electrical devices, such as diodes and transistors may be made using such printed contact and/or local interconnects. A metal ink may be printed for contacts as well as for local interconnects at the same time, or in the alternative, the printed metal can act as a seed for electroless deposition of other metals if different metals are desired for the contact and the interconnect lines. This approach advantageously reduces the number of processing steps and does not necessarily require any etching. | 01-22-2009 |
20110240997 | Epitaxial Structures, Methods of Forming the Same, and Devices Including the Same - Epitaxial structures, methods of making epitaxial structures, and devices incorporating such epitaxial structures are disclosed. The methods and the structures employ a liquid-phase Group IVA semiconductor element precursor ink (e.g., including a cyclo- and/or polysilane) and have a relatively good film quality (e.g., texture, density and/or purity). The Group IVA semiconductor element precursor ink forms an epitaxial film or feature when deposited on a (poly)crystalline substrate surface and heated sufficiently for the Group IVA semiconductor precursor film or feature to adopt the (poly)crystalline structure of the substrate surface. Devices incorporating a selective emitter that includes the present epitaxial structure may exhibit improved power conversion efficiency relative to a device having a selective emitter made without such a structure due to the improved film quality and/or the perfect interface formed in regions between the epitaxial film and contacts formed on the film. | 10-06-2011 |
20120181636 | Printing of Contact Metal and Interconnect Metal Via Seed Printing and Plating - Methods of forming contacts (and optionally, local interconnects) using an ink comprising a silicide-forming metal, electrical devices such as diodes and/or transistors including such contacts and (optional) local interconnects, and methods for forming such devices are disclosed. Electrical devices, such as diodes and transistors may be made using such printed contact and/or local interconnects. A metal ink may be printed for contacts as well as for local interconnects at the same time, or in the alternative, the printed metal can act as a seed for electroless deposition of other metals if different metals are desired for the contact and the interconnect lines. This approach advantageously reduces the number of processing steps and does not necessarily require any etching. | 07-19-2012 |
Patent application number | Description | Published |
20090265479 | DUAL-TYPE OF PLAYBACK FOR MULTIMEDIA CONTENT - Using multimedia data for both continuous playback and streaming playback purposes, including: encoding an elementary stream of multimedia content into a fixed length of a group of pictures; multiplexing the encoded multimedia content into a transport stream; locating data offsets of each GOP header inside the transport stream; and uploading the data offsets along with the transport stream to a server. Continuous and streaming playback of multimedia content. | 10-22-2009 |
20090269042 | CPS UNIT MANAGEMENT IN THE DISC FOR DOWNLOADED DATA - An information processing device comprising: a data processing unit configured to load a disk, which stores content that is divided into content usage control units, and to execute processes for reading the content; and a local storage unit configured to store subsequential data obtained and/or generated subsequentially, wherein the data processing unit is configured to perform processes to: select a title that is an index for reading the subsequential data from dummy titles stored in advance on the disk; set the title as a title for the subsequential data; and store the subsequential data in the local storage unit. | 10-29-2009 |
20090271411 | BINDING UNIT MANIFEST FILE - An information processing device including: a storage unit for storing a data file including readable content, and a control file including control information corresponding to the data file; and a data processing unit configured to use a filename conversion table, which stores filename conversion information, to convert the filename of a file stored in the storage unit into a virtual file system (VFS) name, to construct a VFS that includes storage data of a disc and storage data of the storage unit, and to perform a data reading process; wherein the data processing unit: compares the control information stored in the control file and data stored in the storage unit, and reads and/or updates the filename conversion table to reconcile the control information stored in the control file and the stored data in the storage unit. | 10-29-2009 |
20110109730 | STEREOSCOPIC OVERLAY OFFSET CREATION AND EDITING - Adjusting overlay positioning in stereoscopic video, including: receiving overlay data including a plurality of overlays, each overlay having a lateral axis value, a vertical axis value, and a depth value; receiving and displaying the stereoscopic video to a user as at least one of a video preview display and a stereoscopic display, each display including an overlay from the overlay data, wherein a position of the overlay in each display is based on the lateral axis value, the vertical axis value, and the depth value of the overlay, and wherein the video preview display includes interfaces for adjusting the position of the overlay in each display; receiving input from the user related to the depth value of the overlay; and adjusting the position of the overlay in the video preview display based on the input from the user. | 05-12-2011 |
20120128324 | 3D AUTHORING TOOL ENSURING NO BUFFER UNDERRUN UPON JUMPS - Systems and methods are provided to implement a technique for providing 3D content, such as on optical media like Blu-ray® discs. In one implementation, a 3D authoring tool executing on a computer system manages how to construct an image for replication where the image handles jumps without buffer underruns, the jumps caused by layer switching or by moving from or to branches in a multi-branch story line. | 05-24-2012 |