Patent application number | Description | Published |
20080303376 | DEVICES AND METHODS FOR ENERGY CONVERSION BASEDON THE GIANT FLEXOELECTRIC EFFECT IN NON-CALAMITIC LIQUID CRYSTALS - Devices and methods for energy conversion based on the giant flexoelectric effect in non-calamitic liquid crystals. By preparing a substance comprising at least one type of non-calamitic liquid crystal molecules and stabilizing the substance to form a mechanically flexible material, flexible conductive electrodes may be applied to the material to create an electro-mechanical energy conversion device which relies on the giant flexoelectric effect to produce electrical and/or mechanical energy that is usable in such applications as, for example, power sources, energy dissipation, sensors/transducers, and actuators. The ability to directly and accurately measure the giant flexoelectric effect for different types of non-calamitic liquid crystal molecules is important for identifying molecules that may be effective for particular applications. | 12-11-2008 |
20100182026 | METHODS AND SYSTEMS FOR DETERMINING FLEXOELECTRIC EFFECT IN A LIQUID CRYSTAL - There are provided methods for creating energy conversion devices based on the giant flexoelectric effect in non-calamitic liquid crystals. By preparing a substance comprising at least one type of non-calamitic liquid crystal molecules and stabilizing the substance to form a mechanically flexible material, flexible conductive electrodes may be applied to the material to create an electro-mechanical energy conversion device which relies on the giant flexoelectric effect to produce electrical and/or mechanical energy that is usable in such applications as, for example, power sources, energy dissipation, sensors/transducers, and actuators. | 07-22-2010 |
20100207493 | ELECTRO-MECHANICAL ENERGY CONVERSION DEVICES AND SYSTEMS - There are provided methods for creating energy conversion devices based on the giant flexoelectric effect in non-calamitic liquid crystals. By preparing a substance comprising at least one type of non-calamitic liquid crystal molecules and stabilizing the substance to form a mechanically flexible material, flexible conductive electrodes may be applied to the material to create an electro-mechanical energy conversion device which relies on the giant flexoelectric effect to produce electrical and/or mechanical energy that is usable in such applications as, for example, power sources, energy dissipation, sensors/transducers, and actuators. | 08-19-2010 |
20110309305 | Flexible aqueous soluble conductive polymer compositions - A conductive, durable, peelable and flexible polymeric composition such as a coating can be utilized as an electrode sheet or substrate for organic and polymer light emitting diodes, for organic transistors, medical electrodes, and the like. The conductive polymeric composition is a blend of a conductive polymer blend and a peelable polymer blend wherein the conductive polymer comprises a negative-charged accepting polymer and a positive-charged accepting polymer and wherein the peelable polymer blend comprises a water soluble polymer, a polyalkylene oxide, and an alkyl glycol. | 12-22-2011 |