Abstract: A polymer composition which includes carbon nanotubes in a resin matrix such as cyclic butylene terephthalate where the resin matrix is compounded into a polymer matrix. The carbon nanotube resin matrix is compatible in a wide variety of polymer matrixes having many end uses. The resin matrix provides good compatibility with many polymer systems, e.g., polyamides, polyesters, acrylics and is easy to use exhibiting a low melting point and low viscosity in melt and provides for a polymer matrix having good properties, including a higher electrical conductivity and/or increased mechanical properties.

Abstract: A pane having a heatable, optically transparent sensor array comprising at least: a) a pane, b) at least one optically transparent sensor array on the surface of the pane, c) at least one heatable film which is fitted to the optically transparent sensor array, comprising at least: c1) a support film, c2) a heatable coating, printed conductors, meshes and/or heating wires on the support film, d) at least one electrical contact-making means, which is fitted to the heatable coating and/or to the heating wires, and e) encapsulation, which is fitted to the optically transparent sensor array and to the heatable film, and a sensor which is fitted in the encapsulation.

Abstract: An electrochromic layer structure with at least one active layer and at least two electrodes is described. At least one of the electrodes has an electrically conductive network of conductor tracks and the conductor tracks contain nanoparticles. An electrochromic device, a method for production of an electrochromic layer structure and use of an electrochromic layer structure and an electrochromic device are also described.

Abstract: An electrochromic layer structure with at least one active layer and at least two electrodes is described. At least one of the electrodes has an electrically conductive network of conductor tracks and the conductor tracks contain nanoparticles. An electrochromic device, a method for production of an electrochromic layer structure and use of an electrochromic layer structure and an electrochromic device are also described.

Abstract: A pane having a heatable, optically transparent sensor array comprising at least: a) a pane, b) at least one optically transparent sensor array on the surface of the pane, c) at least one heatable film which is fitted to the optically transparent sensor array, comprising: c1) a support film, c2) a heatable coating, printed conductors, meshes and/or heating wires on the support film, d) at least one electrical contact-making means, which is fitted to the heatable coating and/or to the heating wires, and e) encapsulation, which is fitted to the optically transparent sensor array and to the heatable film, and a sensor which is fitted in the encapsulation.

Abstract: The present invention relates to an electrochromic device having controlled infrared reflection, in particular of the electrically controllable type, comprising, between a carrier substrate (1a) transparent in the infrared range and a counter-substrate (1b), a multilayer stack. The device is characterized in that this multilayer stack comprises, in succession: a) a metal grid (3) transparent in the infrared range, forming a first electrode; b) an electrochromic functional system (5) comprising a layer (EC1) of an ion-storage first electrochromic material, at least one layer (EL1, EL2) having an electrolytic function, and a layer (EC2) of a second electrochromic material; c) a metal layer (7) capable of reflecting the infrared radiation, forming a second electrode; and d) a lamination interlayer (9) made of a thermoplastic polymer.

Abstract: The present invention pertains to the use of nanotubes of at least one chemical element chosen from elements of groups IHa, IVa and Va of the periodic table to improve the high temperature mechanical properties of a polymeric matrix comprising at least one semi-crystalline thermoplastic polymer.

Abstract: The present invention relates to an electrochromic device having controlled infrared reflection, in particular of the electrically controllable type, comprising, between a carrier substrate (1a) transparent in the infrared range and a counter-substrate (1b), a multilayer stack. The device is characterized in that this multilayer stack comprises, in succession: a) a metal grid (3) transparent in the infrared range, forming a first electrode; b) an electrochromic functional system (5) comprising a layer (EC1) of an ion-storage first electrochromic material, at least one layer (EL1, EL2) having an electrolytic function, and a layer (EC2) of a second electrochromic material; c) a metal layer (7) capable of reflecting the infrared radiation, forming a second electrode; and d) a lamination interlayer (9) made of a thermoplastic polymer.

Abstract: A polymer composition which includes carbon nanotubes in a resin matrix such as cyclic butylene terephthalate where the resin matrix is compounded into a polymer matrix. The carbon nanotube resin matrix is compatible in a wide variety of polymer matrixes having many end uses. The resin matrix provides good compatibility with many polymer systems, e.g., polyamides, polyesters, acrylics and is easy to use exhibiting a low melting point and low viscosity in melt and provides for a polymer matrix having good properties, including a higher electrical conductivity and/or increased mechanical properties.