Patent application number | Description | Published |
20080259262 | COMPOSITE TRANSPARENT CONDUCTORS AND METHODS OF FORMING THE SAME - Composite transparent conductors are described, which comprise a primary conductive medium based on metal nanowires and a secondary conductive medium based on a continuous conductive film. | 10-23-2008 |
20080283799 | NANOWIRES-BASED TRANSPARENT CONDUCTORS - A transparent conductor including a conductive layer coated on a substrate is described. More specifically, the conductive layer comprises a network of nanowires which may be embedded in a matrix. The conductive layer is optically transparent and flexible. It can be coated or laminated onto a variety of substrates, including flexible and rigid substrates. | 11-20-2008 |
20080286447 | NANOWIRES-BASED TRANSPARENT CONDUCTORS - A transparent conductor including a conductive layer coated on a substrate is described. More specifically, the conductive layer comprises a network of nanowires which may be embedded in a matrix. The conductive layer is optically transparent and flexible. It can be coated or laminated onto a variety of substrates, including flexible and rigid substrates. | 11-20-2008 |
20100243295 | NANOWIRE-BASED TRANSPARENT CONDUCTORS AND APPLICATIONS THEREOF - A transparent conductor including a conductive layer coated on a substrate is described. More specifically, the conductive layer comprises a network of nanowires that may be embedded in a matrix. The conductive layer is optically clear, patternable and is suitable as a transparent electrode in visual display devices such as touch screens, liquid crystal displays, plasma display panels and the like. | 09-30-2010 |
20100307792 | RELIABLE AND DURABLE CONDUCTIVE FILMS COMPRISING METAL NANOSTRUCTURES - Reliable and durable conductive films formed of conductive nanostructures are described. The conductive films show substantially constant sheet resistance following prolonged and intense light exposure. | 12-09-2010 |
20110042126 | CONTACT RESISTANCE MEASUREMENT FOR RESISTANCE LINEARITY IN NANOSTRUCTURE THIN FILMS - The present disclosure is directed to a transparent conductor for use in touch panel devices having a plurality of nanostructures therein that provides reliable output based on user touch or pen input. To determine if a touch panel is reliable, there is disclosed a method of measuring voltages across the transparent conductor when it is touched. These measured voltages are converted into contact resistances, which are statistically analyzed. A median contact resistance is determined based on the converted contact resistances. The remaining set of converted contact resistances are analyzed to determine if they are within acceptable limits. Acceptable limits may include most of the contact resistances falling within a range, none of the contact resistances exceeding an upper limit, and a difference in contact resistances converted for different users or pens does not exceed a maximum variability. | 02-24-2011 |
20110088770 | NANOWIRE-BASED TRANSPARENT CONDUCTORS AND APPLICATIONS THEREOF - A transparent conductor including a conductive layer coated on a substrate is described. More specifically, the conductive layer comprises a network of nanowires that may be embedded in a matrix. The conductive layer is optically clear, patternable and is suitable as a transparent electrode in visual display devices such as touch screens, liquid crystal displays, plasma display panels and the like. | 04-21-2011 |
20110163403 | NANOSTRUCTURE-BASED TRANSPARENT CONDUCTORS HAVING INCREASED HAZE AND DEVICES COMPRISING THE SAME - The present disclosure relates to modifications to nanostructure based transparent conductors to achieve increased haze/light-scattering with different and tunable degrees of scattering, different materials, and different microstructures and nanostructures. | 07-07-2011 |
20110285019 | TRANSPARENT CONDUCTORS COMPRISING METAL NANOWIRES - A transparent conductor including a conductive layer coated on a substrate is described. More specifically, the conductive layer comprises a network of nanowires which may be embedded in a matrix. The conductive layer is optically transparent and flexible. It can be coated or laminated onto a variety of substrates, including flexible and rigid substrates. | 11-24-2011 |
20110297642 | NANOWIRE-BASED TRANSPARENT CONDUCTORS AND APPLICATIONS THEREOF - A transparent conductor including a conductive layer coated on a substrate is described. More specifically, the conductive layer comprises a network of nanowires that may be embedded in a matrix. The conductive layer is optically clear, patternable and is suitable as a transparent electrode in visual display devices such as touch screens, liquid crystal displays, plasma display panels and the like. | 12-08-2011 |
20120033367 | COMPOSITE TRANSPARENT CONDUCTORS AND METHODS OF FORMING THE SAME - Composite transparent conductors are described, which comprise a primary conductive medium based on metal nanowires and a secondary conductive medium based on a continuous conductive film. | 02-09-2012 |
20120223358 | METHOD OF TUNING WORK FUNCTION OF METAL NANOSTRUCTURE-BASED TRANSPARENT CONDUCTOR - The present disclosure relates to methods for tuning the work function of a metal nanostructure-based conductive film by forming a dipole surface layer on individual metal nanostructures. | 09-06-2012 |
20130040106 | ANISOTROPY REDUCTION IN COATING OF CONDUCTIVE FILMS - Provided herein is a method of forming a conductive film, the method comprising: providing a coating solution having a plurality of conductive nanostructures and a fluid carrier; moving a web in a machine direction; forming a wet film by depositing the coating solution on the moving web, wherein the wet film has a first dimension extending parallel to the machine direction and a second dimension transverse to the machine direction; applying an air flow across the wet film along the second dimension, whereby at least some of the conductive nanostructures in the wet film are reoriented; and allowing the wet film to dry to provide the conductive film. | 02-14-2013 |
20130105770 | OPTO-ELECTRICAL DEVICES INCORPORATING METAL NANOWIRES | 05-02-2013 |
20140175407 | OPTO-ELECTRICAL DEVICES INCORPORATING METAL NANOWIRES - The present disclosure relates to OLED and PV devices including transparent electrodes that are formed of conductive nanostructures and methods of improving light out-coupling in OLED and input-coupling in PV devices. | 06-26-2014 |
20140202738 | NANOSTRUCTURE TRANSPARENT CONDUCTORS HAVING HIGH THERMAL STABILITY FOR ESD PROTECTION - Disclosed herein are transparent conductors having high thermal capacity and improved protection against electrostatic discharge. | 07-24-2014 |
20140338735 | NANOWIRE-BASED TRANSPARENT CONDUCTORS AND APPLICATIONS THEREOF - A transparent conductor including a conductive layer coated on a substrate is described. More specifically, the conductive layer comprises a network of nanowires that may be embedded in a matrix. The conductive layer is optically clear, patternable and is suitable as a transparent electrode in visual display devices such as touch screens, liquid crystal displays, plasma display panels and the like. | 11-20-2014 |
20140340811 | CONDUCTIVE NANOSTRUCTURE-BASED FILMS WITH IMPROVED ESD PERFORMANCE - Optical stacks containing one or more patterned transparent conductor layers may be damaged by electrostatic discharges that occur during the optical stack manufacturing process. Such damage may result in non-conductive conductors within the patterned transparent conductor layer. An electrostatic discharge protected optical stack may include a substrate layer, a first anti-static layer having a sheet resistance of from about 10 | 11-20-2014 |