| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 438019000 | HAVING INTEGRAL POWER SOURCE (E.G., BATTERY, ETC.) | 10 |
| 20100120179 | Method of producing prelithiated anodes for secondary lithium ion batteries - A method of producing a lithium-ion battery anode comprising: (a) providing an anode active material; (b) intercalating or absorbing a desired amount of lithium into this anode active material to produce a prelithiated anode active material; (c) comminuting the prelithiated anode active material into fine particles with an average size less than 10 μm (preferably sub-micron and more preferably <200 nm); and (d) combining multiple fine particles of prelithiated anode active material with a conductive additive and/or a binder material to form the anode. The battery featuring such an anode exhibits an exceptionally high specific capacity, an excellent reversible capacity, and a long cycle life. | 05-13-2010 |
| 20120077291 | OCCUPANCY SENSOR - A method for manufacturing a sensor device ( | 03-29-2012 |
| 20120115259 | METHOD FOR FABRICATING FLEXIBLE ELECTRONIC DEVICE AND ELECTRONIC DEVICE FABRICATED THEREBY - Disclosed are a method for fabricating a flexible electronic device using laser lift-off and an electronic device fabricated thereby. More particularly, disclosed are a method for fabricating a flexible electronic device using laser lift-off allowing for fabrication of a flexible electronic device in an economical and stable way by separating a device such as a secondary battery fabricated on a sacrificial substrate using laser, and an electronic device fabricated thereby. | 05-10-2012 |
| 20140273315 | METHODS AND OPHTHALMIC DEVICES WITH ORGANIC SEMICONDUCTOR LAYER - This invention discloses methods and apparatus to form organic semiconductor transistors upon three-dimensionally formed insert devices. In some embodiments, the present invention includes incorporating the three-dimensional surfaces with organic semiconductor-based thin film transistors, electrical interconnects, and energization elements into an insert for incorporation into ophthalmic lenses. In some embodiments, the formed insert may be directly used as an ophthalmic device or incorporated into an ophthalmic device. | 09-18-2014 |
| 20140273316 | METHODS AND OPHTHALMIC DEVICES WITH THIN FILM TRANSISTORS - This invention discloses methods and apparatus to form organic semiconductor transistors upon three-dimensionally formed insert devices. In some embodiments, the present invention includes incorporating the three-dimensional surfaces with organic semiconductor-based thin film transistors, electrical interconnects, and energization elements into an insert for incorporation into ophthalmic lenses. In some embodiments, the formed insert may be directly used as an ophthalmic device or incorporated into an ophthalmic device. | 09-18-2014 |
| 20140295585 | TAILORABLE FLEXIBLE SHEET OF MONOLITHICALLY FABRICATED ARRAY OF SEPARABLE CELLS EACH COMPRISING A WHOLLY ORGANIC, INTEGRATED CIRCUIT ADAPTED TO PERFORM A SPECIFIC FUNCTION - A flexible sheet of organic polymer material, may include a monolithically fabricated array of one or more types of cells juxtaposed among them to form a multi-cell sheet. Each cell may include a self consistent, organic base integrated circuit, replicated in each cell of same type of the array, and shares, in common with other cells of same type, at least a conductor layer of either an electrical supply rail of the integrated circuit or of an input/output of the integrated circuit. A piece of the multi-cell, sheet including any number of self consistent integrated circuit cells, may be severed from the multi-cell sheet by cutting the sheet along intercell boundaries or straight lines, with a reduced affect on the operability of any cell spared by the cutting. | 10-02-2014 |
| 20140315334 | INTEGRATED CIRCUIT PACKAGE INCLUDING EMBEDDED THIN-FILM BATTERY - An integrated circuit package is provided with a thin-film battery electrically connected to and encapsulated with an integrated circuit die. The battery can be fabricated on a dedicated substrate, on the die pad, or on the integrated circuit die itself. | 10-23-2014 |
| 20150111320 | INTEGRATED CIRCUIT COMBINATION OF A TARGET INTEGRATED CIRCUIT AND A PLURALITY OF PHOTOVOLTAIC CELLS CONNECTED THERETO USING THE TOP CONDUCTIVE LAYER - A device having a plurality of thin film photovoltaic cells (PV) formed over a passivation layer. The device comprises a plurality of thin film photovoltaic (PV) cells formed over the passivation layer, each PV cell includes at least a lower conducting layer (LCL) and an upper conducting layer (UCL); and a conducting path connecting at least a UCL of a first PV cell to at least a LCL of a second PV cell, wherein at least a first array of PV cells comprised of at least a first portion of the plurality of PV cells is connected by the respective UCL and LCL of each PV cell to provide a first voltage output. In an embodiment the passivation layer is formed over a target integrated circuit (TIC), the TIC having a top surface and a bottom surface. | 04-23-2015 |
| 20160180980 | BETA VOLTAIC BATTERY AND METHOD OF PREPARING THE SAME | 06-23-2016 |
| 20160204004 | WAFER-SCALE PACKAGE INCLUDING POWER SOURCE | 07-14-2016 |
