| Patent application number | Description | Published |
|---|
| 20080202922 | HYBRID ELECTRO-DEPOSITION OF SOFT MAGNETIC COBALT ALLOY FILMS - A hybrid electro-deposition process for soft magnetic cobalt alloy films comprises providing a plating bath that includes cobalt and a reducing agent, providing a cobalt-containing anode in the plating bath coupled to a power supply, providing a substrate in the plating bath coupled to the power supply, wherein the substrate functions as a cathode, applying a magnetic field across the plating bath, and applying an electrical current to the plating bath by way of the power supply to cause the cobalt to deposit onto the substrate and form a soft magnetic film. | 08-28-2008 |
| 20080237051 | Method and plating bath for depositing a magnetic film - A cobalt-iron-boron (CoFeB) film ( | 10-02-2008 |
| 20080238593 | Apparatus, method, and system capable of producing a moveable magnetic field - An apparatus capable of producing a moveable magnetic field includes a moveable support structure ( | 10-02-2008 |
| 20090004758 | RESONANT MAGNETIC DISKS FOR BIOANALYTE DETECTION - Embodiments of the invention relate generally to ferromagnetic microdisks, methods of detecting target bioanalyte using ferromagnetic microdisks, and kits (such as for using in the laboratory setting) containing the reagents necessary to make, and/or use ferromagnetic microdisks for bioanalyte detection, depending on the user's planned application. The methods and products allow the fabrication of ferromagnetic microdisks, and their use in the detection of biological molecules with high sensitivity, little or no signal decay, improved safety, convenience, and lowered cost for use and disposal. | 01-01-2009 |
| 20090032970 | STACKING OF INTEGRATED CIRCUITS USING GLASSY METAL BONDING - Techniques associated with stacking integrated circuits using glassy metal bonding are generally described. In one example, an apparatus includes a first integrated circuit having one or more bonding pads and a second integrated circuit having one or more bonding pads, the second integrated circuit being electrically and mechanically coupled with the first integrated circuit by one or more joints formed between the one or more bonding pads of the first and second integrated circuit using a bulk metallic glass bonding material, wherein the bulk metallic glass material provides a low temperature and low pressure bonding solution to reduce delamination or wherein the bulk metallic glass provides reduced intermetallic compound to increase joint reliability, or suitable combinations thereof. | 02-05-2009 |
| 20090128274 | INDUCTOR USING BULK METALLIC GLASS MATERIAL - Inductors using bulk metallic glass (BMG) material and associated methods are generally described. In one example, an apparatus includes an electrically conductive core material, an electrically insulative material coupled with the electrically conductive core material, and a magnetic bulk metallic glass (BMG) material coupled with the electrically insulative material, wherein the electrically conductive core material, the electrically insulative material, and the magnetic BMG material form an inductor. | 05-21-2009 |
| 20110223691 | RESONANT MAGNETIC DISKS FOR BIOANALYTE DETECTION - Embodiments of the invention relate generally to ferromagnetic microdisks, methods of detecting target bioanalyte using ferromagnetic microdisks, and kits (such as for using in the laboratory setting) containing the reagents necessary to make, and/or use ferromagnetic microdisks for bioanalyte detection, depending on the user's planned application. The methods and products allow the fabrication of ferromagnetic microdisks, and their use in the detection of biological molecules with high sensitivity, little or no signal decay, improved safety, convenience, and lowered cost for use and disposal. | 09-15-2011 |
| 20110224093 | RESONANT MAGNETIC DISKS FOR BIOANALYTE DETECTION - Embodiments of the invention relate generally to ferromagnetic microdisks, methods of detecting target bioanalyte using ferromagnetic microdisks, and kits (such as for using in the laboratory setting) containing the reagents necessary to make, and/or use ferromagnetic microdisks for bioanalyte detection, depending on the user's planned application. The methods and products allow the fabrication of ferromagnetic microdisks, and their use in the detection of biological molecules with high sensitivity, little or no signal decay, improved safety, convenience, and lowered cost for use and disposal. | 09-15-2011 |
