Abstract: Systems and methods include providing a stator vane bushing for a variable stator vane assembly having a movable stator vane and a stator vane housing disposed annularly about the movable stator vane. The bushing includes a flange, a barrel extending from the flange, and a central aperture extending through the flange and the barrel and is disposed in the housing and annularly about the stator vane. The bushing is formed from a ceramic material having a coefficient of thermal expansion (CTE) lower than or equal to a CTE of one or more of a stator vane and a housing of the variable stator vane assembly.

Abstract: A luminous glazing unit includes at least two glazing elements, for example at least two transparent glass sheets; optionally at least one lamination interlayer between the two glazing elements; at least one waveguide element, located on one face of the lamination interlayer and/or between the two glazing elements, the waveguide element having a refractive index higher than the refractive index of the adjacent interlayer and/or glazing elements; at least one light source, for example positioned at the edge of the glazing unit in order to illuminate the waveguide element via the edge face of the latter; and at least one light extraction device, formed by at least one fibrous structure, this structure being in the form of at least one textile, this structure or this extraction device being placed in the core of the waveguide element.

Abstract: The invention relates to an electrochemical device (1) having electrically controllable optical and/or energy transmission properties, of the type comprising two electrode coatings (4, 6) and, between them, an electrochemically active layer (6) made of an inorganic material capable of reversibly switching between two states having different optical and/or energy transmission properties by the insertion and extraction of ions. An electrolyte (8) is present between the electrochemically active layer and the second electrode coating. The material of the electrochemically active layer is a material, the insertion and extraction of the ions of which during switching between the two states correspond to a variation in the plasma wavelength ? of the material and in that the material has, at the plasma wavelength ?, a full width at half maximum ?? of the absorption spectrum equal to or less than 1 micron in the two states.

Abstract: A luminous glazing unit includes at least two glazing elements, for example at least two transparent glass sheets; optionally at least one lamination interlayer between the two glazing elements; at least one waveguide element, located on one face of the lamination interlayer and/or between the two glazing elements, the waveguide element having a refractive index higher than the refractive index of the adjacent interlayer and/or glazing elements; at least one light source, for example positioned at the edge of the glazing unit in order to illuminate the waveguide element via the edge face of the latter; and at least one light extraction device, formed by at least one fibrous structure, this structure being in the form of at least one textile, this structure or this extraction device being placed in the core of the waveguide element.

Abstract: A luminous glazing unit including at least one substrate formed by a transparent glazing element; at least one light source; and at least one light extraction device for extracting the light, the extraction device being arranged to create a luminous region, the extraction device being formed by at least one fibrous layer.

Abstract: A radiation-collecting device includes at least one radiation-collecting element and a scattering layer placed, in relation to the element, on that side on which the radiation is incident on the device. The scattering layer has a transparent fibrous structure and a transparent medium for encapsulating the fibers of the fibrous structure, the absolute value of the difference between the refractive index of the fibers of the fibrous structure and the refractive index of the encapsulating medium being equal to or greater than 0.05.

Abstract: A solar module is described. The solar module has a laminated composite of two substrates bonded to one another by at least one bonding layer, between which substrates there are solar cells which are connected in series and which each have an absorber zone made of a semiconducting material between a front electrode arranged on a light entrance side of the absorber zone and a rear electrode. A diffusion barrier differing from the front electrode is located between each absorber zone and the bonding layer and is designed to inhibit the diffusion of water molecules from the bonding layer into the absorber zone and/or the diffusion of dopant ions from the absorber zone into the bonding layer. A process for producing such a solar module is also described.

Abstract: The present invention relates to an electrochemical device (1) having electrically controllable optical and/or energy properties, comprising a first electrode coating (4), a second electrode coating (12) and an electrochemically active medium (6, 10) capable of switching reversibly between a first state and a second state of different optical transmission by supplying electrical power to the first electrode coating (4) and to the second electrode coating (12), the material of the electrode coatings being based on a metal oxide having a light transmission factor D65 equal to or greater than 60%, preferably equal to or greater than 80%, and having a concentration of free charge carriers such that the material has an absorption spectrum satisfying (????/2)?1.8 ?m, where ? is the plasma wavelength of the material and ?? is the full width at half maximum of the absorption spectrum at the plasma wavelength.

Abstract: The invention relates to an electrochemical device (1) having electrically controllable optical and/or energy transmission properties, of the type comprising two electrode coatings (4, 6) and, between them, an electrochemically active layer (6) made of an inorganic material capable of reversibly switching between two states having different optical and/or energy transmission properties by the insertion and extraction of ions. An electrolyte (8) is present between the electrochemically active layer and the second electrode coating. The material of the electrochemically active layer is a material, the insertion and extraction of the ions of which during switching between the two states correspond to a variation in the plasma wavelength ? of the material and in that the material has, at the plasma wavelength ?, a full width at half maximum ?? of the absorption spectrum equal to or less than 1 micron in the two states.

Abstract: A luminous glazing unit including at least one substrate formed by a transparent glazing element; at least one light source; and at least one light extraction device for extracting the light, the extraction device being arranged to create a luminous region, the extraction device being formed by at least one fibrous layer.

Abstract: A radiation-collecting device includes at least one radiation-collecting element and a scattering layer placed, in relation to the element, on that side on which the radiation is incident on the device. The scattering layer has a transparent fibrous structure and a transparent medium for encapsulating the fibers of the fibrous structure, the absolute value of the difference between the refractive index of the fibers of the fibrous structure and the refractive index of the encapsulating medium being equal to or greater than 0.05.