Abstract: A removable supporting device includes a frame; an endless ribbon; and a supporting system to support the endless ribbon, the supporting system including at least two rollers connected to the frame; the at least two rollers including a first connecting system adapted to cooperate with a first complementary connecting system of a thermal transfer printing apparatus.

Abstract: A coating module for variable speed ribbon coating, the coating module including a ribbon including an inner face and an outer face; a conveyor system including a support element holding and transporting the ribbon on its inner face; a squeeze ink roller arranged in contact with the outer face of the ribbon; the squeeze ink roller including an outer layer made of elastic material; a reservoir assembly designed to hold ink thereon and to feed the squeeze ink roller with the ink, and a pressure controller including an active element for pressing the ribbon between the squeeze ink roller and the support roller along a coating zone.

Abstract: A thermal printing apparatus includes a frame, an endless ribbon to transport ink on its outer face, a coating device to coat the endless ribbon with ink, a printhead to print by thermal transfer a substrate with a part of the ink, a plurality of first rollers supporting and transporting the endless ribbon by its inner face along a path from the coating device to the printhead and from the printhead to the coating device in a cyclic manner, at least one first conveyor arranged to support the inner face of the endless ribbon between two adjacent first rollers along its path from the coating device to the printhead; the first conveyor including a plate fixed in translation and rotation with the frame and having a first convex surface supporting the inner face, a heat exchanger designed to cool down the first surface of the plate at a predefined temperature.

Abstract: A removable device adapted to cooperate with a conveyor system for the installation of an endless ribbon in the conveyor system, the removable device includes at least two support elements to support the endless ribbon, each support element being movable in rotation around a rotation axis and each support element having a convex portion to support a portion of the endless ribbon.

Abstract: A thermal transfer printing apparatus includes a coater to coat an endless belt ribbon with ink on a coating zone, a printhead to print by thermal transfer a substrate with a part of the ink coated on the endless belt ribbon on a printing zone, a conveyor system supporting and transporting the endless ribbon including ink along a first path from the coater to the printhead and along a second path from the printhead to the coater; a pre-printing buffer to control the length of the first path of the ribbon in the coating zone; and a post-printing buffer to control the length of the second path of the ribbon in the printing zone.

Abstract: A current collector of an electrochemical actuator is proposed, the current collector being coated with an interfacing layer, the interfacing layer being formed by coating on the current collector with a composition, the composition being formed by particles, at least 50% of the particles having a mean diameter by volume of less than or equal to 10 micrometers.

Abstract: The present invention relates to a method for manufacturing a current collector for a battery or a supercapacitor, the manufacturing method comprising a phase of connecting a metal element and a metal strip coated with a coating, the coating being made of a coating material, the coating material being distinct from the strip material, the connecting phase comprising: a superimposing step of the strip and the metal element on a superposition surface, and a step of applying ultrasound by a sonotrode of an ultrasonic welder on the superimposing surface along a line for welding the superimposing surface.

Abstract: The invention relates to a method for optimizing a shearing bench for shearing a film having a thickness less than or equal to 10 microns, the shearing bench comprising a plurality of elements, each element being characterized by a plurality of parameters, the collection of parameters forming the parameters of the shearing bench, the plurality of elements comprising at least one blade assembly comprising a blade and a counter-blade collaborating with the blade, a system for progressing the film, and a system for urging the blade and the counter-blade against one another in order to shear the film.

Abstract: The present invention relates to composite material comprising a matrix and a metallic layer located at at least one surface of said composite material, said matrix comprising at least one polymer and a first population of particles of at least one electronically conducting metal, said layer comprising a second population of particles of at least one electronically conducting metal, a method for preparing such composite material and applications thereof.

Abstract: The present invention relates to composite material comprising a matrix and a metallic layer located at at least one surface of said composite material, said matrix comprising at least one polymer and a first population of particles of at least one electronically conducting metal, said layer comprising a second population of particles of at least one electronically conducting metal, a method for preparing such composite material and applications thereof.

Abstract: A method for producing a densified material includes: obtaining a film including at least one first layer of plastic material and one second layer with a composition distinct from the first layer, the first layer having a first melting temperature, or obtaining pieces of such a film; compressing the obtained film or the obtained pieces of film through at least one die of at least one extruder, and obtaining a profile of densified material, the extruder including at least one rotary endless screw pushing the obtained film or pieces of film along a screw axis; and optionally cutting the profile in order to obtain granules of densified material, the compression step being carried out at a maximum compression temperature for the obtained film or pieces of film, the maximum compression temperature being less than the first melting temperature. Also disclosed are installation and use of the densified material.

Abstract: The present invention relates to a current collector comprising: a substrate, the substrate being made of a first material, the first material comprising a polymer, and a grid in contact with the substrate, the grid being made of a second material, the second material comprising metal particles.

Abstract: The invention concerns a method of manufacturing a photovoltaic module comprising at least two electrically connected photovoltaic cells, each photovoltaic cell (4i) being multi-layered structure disposed on a substrate (6) having down-web direction (X) and a cross-web direction (Y). The method comprises providing a plurality of spaced-apart first electrode strips (8i) over the substrate (6), each first electrode strip extending along the cross-web direction (Y), and providing, over the first electrode strips layer, at least one insulating strip (14a, 14b) of an insulator material extending along the down-web direction (X), each insulating strip defining a connecting area and an active area. A functional stack (20) comprising a full web coated layer of photoactive semiconductor material is formed over the first layer and within the active area.

Abstract: A method for manufacturing a photovoltaic module, comprising at least two electrically connected photovoltaic cells, the module comprising an insulating substrate covered with a layer of a first conductive material. The method comprises: a) forming a groove defining a first and second lower electrode; and b) forming, on each lower electrode, a stack comprising an upper electrode and a photo-active layer. The method further comprises, between steps a) and b), forming: a first insulating step on the groove; then a conductive strip partially covering the first insulating strip; then a second insulating strip partially covering the conductive strip.

Abstract: The invention relates to a cathode for an electrochemical accumulator including a current collector, an interfacing layer, the interfacing layer being coated on the current collector, and an electrode, the electrode being formed by deposition, in particular by coating, of a first composition on the interfacing layer, the first composition having a hydrogen potential greater than or equal to 10, preferably greater than or equal to 12, the hydrogen potential being measured at a temperature of 25° C.

Abstract: The present invention relates to a method for manufacturing a photovoltaic module (10), comprising the following steps: forming, on an electrically conducting material, a furrow (20A) defining a first (18A) and second (18B) lower electrode; then forming, on each lower electrode, a stack (34) comprising at least one upper electrode (36) and an intermediate photo-active layer (38), to form a first (16A) and second (16B) photovoltaic cell, respectively; then forming an electrical connection (17A) between said cells (16A, 16B). Before the stacks, the following are formed: a first insulating strip (22A) in the furrow (20A); and a second electrically insulating strip (24B) on the second lower electrode, delimiting an inactive area (28B) on said second electrode. The stack (34) next formed on the second cell is positioned outside the inactive area.

Abstract: This invention concerns a film for a photovoltaic cell comprising at least one metal oxide and at least one additive. The metal oxide has a conduction band with a minimum energy level. The additive is selected from the group consisting of alkaline hydroxides, alkaline earth hydroxides, semi-conducting materials having a highest occupied molecular orbital with an energy level with an absolute value lower than the absolute value of the minimum energy level of the conduction band of the metal oxide, and n-type doping materials having an ionization energy lower than the absolute value of the minimum energy level of the conduction band of the metal oxide.

Abstract: The present invention relates to a method for manufacturing a photovoltaic module, comprising at least two electrically connected photovoltaic cells, said module comprising an insulating substrate covered with a layer of a first conductive material. The method comprises: a) forming a groove defining a first and second lower electrode; and b) forming, on each lower electrode, a stack comprising an upper electrode and a photo-active layer. The method further comprises, between steps a) and b), forming: a first insulating step on the groove; then a conductive strip partially covering said first insulating strip; then a second insulating strip partially covering said conductive strip.

Abstract: A beacon device to be installed on a tower, the device including: an electric energy generating unit comprising: at least one photovoltaic module able to be wound over at least part of the circumference of the tower, and a light energy generating unit configured to be fastened on the tower the light energy generating unit comprising: a housing having a periphery, a storage member storing the electric energy generated by the electric energy generating unit, a regulating member regulating the charge of the storage member, and a light-emitting member supplied by the storage member, the light-emitting member extending over the periphery of the housing.

Abstract: The present invention relates to composite material comprising a matrix and a metallic layer located at at least one surface of said composite material, said matrix comprising at least one polymer and a first population of particles of at least one electronically conducting metal, said layer comprising a second population of particles of at least one electronically conducting metal, a method for preparing such composite material and applications thereof.