Patent application number | Description | Published |
20080212160 | Electronically Controlled Device With Variable Optical And/Or Power Properties And Power Supply Method Therefor - Electrically controllable system having variable optical/energy properties in transmission or reflection, comprising at least one carrier substrate provided with a multilayer allowing the migration of active species, especially an electrochromic multilayer comprising at least two active layers that are separated by at least one layer having an electrolyte function, said multilayer being placed between two electronic conductors connected respectively to current leads, namely lower and upper leads respectively, characterized in that the layer having an electrolyte function incorporates at least one hybrid layer based on a metal layer and on a passivation layer for passivating the same metal as that of the metal layer. | 09-04-2008 |
20090067031 | ELECTROCHEMICAL SYSTEM ON A PLASTIC SUBSTRATE - Electrochemical system comprising at least one substrate of organic nature, at least one electronically conductive layer and at least one active species, characterized in that it includes at least one organic layer lying between the electronically conductive layer and the substrate. | 03-12-2009 |
20090251758 | GLASS TYPE ELECTROCHEMICAL/ ELECTRICALLY CONTROLLABLE DEVICE WITH VARIABLE OPTICAL AND/OR ENERGETIC CHARACTERISTIC - An electrochemical/electrically controllable device having variable optical and/or energetic properties, including a first carrier substrate including an electrically conductive layer associated with a first stack of electrically active layers and a second carrier substrate including an electrically conductive layer associated with a second stack of electrically active layers. The first and second stacks each function optically in series on at least a portion of their surface and are separated by an electrically insulating mechanism. | 10-08-2009 |
20090284821 | ELECTROCHEMICAL SYSTEM COMPRISING AT LEAST ONE PARTIAL MAKING UP ZONE - Electrochromic device having at least one carrier substrate (S | 11-19-2009 |
20090323157 | ELECTROCHEMICAL AND/OR ELECTROCONTROLLABLE DEVICE, OF THE GLAZING TYPE, HAVING VARIABLE OPTICAL AND/OR ENERGETIC PROPERTIES - An electrically controllable/electrochemical device, having variable optical and/or energy properties, including at least one carrier substrate including a first electronically conductive layer, a first electrochemically active layer capable of reversibly inserting ions such as cations, H | 12-31-2009 |
20100132988 | HIGHLY ELECTRICALLY CONDUCTIVE TRANSPARENT LAYER WITH A METAL GRID HAVING OPTIMIZED ELECTROCHEMICAL RESISTANCE - An electroconductive layer ( | 06-03-2010 |
20110043885 | CONTROLLED-TRANSPARENCY ELECTROCHROMIC DEVICE - The present invention relates to an electrochromic device comprising:
| 02-24-2011 |
20110043887 | ELECTROCHROMIC DEVICE COMPRISING A MESH - An electrochromic device, with controlled transparency, for example of electrically controllable type, including between a transparent carrier substrate and a counter-substrate, at least one stack of functional layers, the outermost layers of which include electroconductive layers, the conductivity of at least one electroconductive layer not in contact with the carrier substrate being reinforced by a network of conductive elements in contact with this layer. The network includes a mesh, for which the area of the intermesh free space is substantially between 0.04 mm | 02-24-2011 |
20110080630 | GLASS TYPE ELECTROCHEMICAL/ELECTRICALLY CONTROLLABLE DEVICE WITH VARIABLE OPTICAL AND/OR ENERGETIC CHARACTERISTIC - Electrochemical/electrically controllable device having variable optical and/or energetic properties, including a first carrier substrate provided with an electrically conductive layer associated with a first stack of electrically active layers and a second carrier substrate provided with an electrically conductive layer associated with a second stack of electrically active layers, wherein the first and second stacks each function optically in series on at least a portion of their surface and are separated by an electrically insulating means, which is a gas, or is a vacuum. | 04-07-2011 |
20110181939 | ELECTROCHROMIC DEVICE HAVING CONTROLLED INFRARED REFLECTION - The present invention relates to an electrochromic device having controlled infrared reflection, in particular of the electrically controllable type, comprising, between a carrier substrate ( | 07-28-2011 |
20110317243 | ELECTRICALLY CONTROLLABLE DEVICE HAVING UNIFORM COLORING/BLEACHING OVER THE ENTIRE SURFACE - A device including a multilayer stack of: a first substrate having a glass function; a first electronically conductive layer with an associated current lead; an electroactive system; a second electronically conductive layer with an associated current lead; and a second substrate having a glass function. Each of the electronically conductive layers has a resistance per unit area enabling it to have an equipotential surface in coloring mode and bleaching mode, and each having a variable resistance that gradually decreases from the periphery toward the interior of the electrically controllable device by choosing the resistance at the center of the glazing, in the zone or zones furthest away from the current leads, so that the ohmic drop over the central surface of the substrates of the glazing, in the zone or zones furthest away from the current leads, is at most equal to 5% of the voltage applied across the terminals of the device. | 12-29-2011 |
20120019889 | CONTROLLED-TRANSPARENCY ELECTROCHROMIC DEVICE - The present invention relates to an electrochromic device having at least one active area (CDEF), having, on a carrier substrate ( | 01-26-2012 |
20130329273 | ELECTROCHEMICAL DEVICE HAVING ELECTRICALLY CONTROLLABLE OPTICAL AND/OR ENEGY TRANSMISSION PROPERTIES - The invention relates to an electrochemical device ( | 12-12-2013 |
20140376075 | ELECTROCONTROLLABLE DEVICE - An electrically controllable device includes two supported electrodes, each coated with a conductive coating, the two electrodes positioned with respect to one another so that the conductive coatings are facing each other. An electroactive system, sandwiched between, and in contact with, the two electrodes, has an area smaller than that of each of the electrodes to define a peripheral groove over the entire perimeter of the electroactive system. A peripheral seal fills the groove over the entire perimeter of the electroactive system and is entirely in contact with the two electrodes. The contact area between the seal and the first electrode and the contact area between the seal and the second electrode each include a conductive part and a non-conductive part. No conductive part of the contact area between the seal and the first electrode is opposite a conductive part of the contact area between the seal and the second electrode. | 12-25-2014 |