A solar cell is provided, including a substrate having a first surface and a second surface opposite to each other, an emitter formed on the first surface of the substrate and including a textured structure on a side away from the first surface, a passivation structure formed on the textured structure, first electrodes penetrating the passivation structure and in electrical contact with the textured structure of the emitter, and conductive eutectic layers each formed between a respective first electrode and the emitter and including first conductive particles and second conductive particles. Each of the first conductive particles has a shape different from a shape of any of the second conductive particles. The first conductive particles and the second conductive particles have a first number, the first conductive particles have a second number, and a ratio of the second number to the first number in a range of 20% to 80%.

Disclosed is a photovoltaic module including an encapsulation part, a plurality of solar cells disposed in the encapsulating part such that angles thereof with respect to a height direction of the encapsulation part is 30 degrees to 90 degrees, and impact absorption parts disposed between the plurality of solar cells in the encapsulation part.

To provide a solar cell module excellent in design property and weather resistance, a method for producing it, and a building exterior wall material using it. The solar cell module of the present invention comprises, from the light-receiving surface side of the solar cell module, a cover glass, a first encapsulant layer, a design layer, a second encapsulant layer and solar cells in this order, the first encapsulant layer contains an ultraviolet absorber, the first encapsulant layer has a thickness of from 50 to 2,000 m, and the design layer contains a fluororesin.

A modular photovoltaic system adapted for collecting light rays from a solar light source to generate electrical current, the system having a light-tracking solar collector adapted to collect the light rays, an edge-lit photovoltaic array, and a transport conduit adapted to transport the light rays to the edge-lit photovoltaic array. The edge-lit photovoltaic array has a plurality of edge-lit photovoltaic panels, each having a transparent diffusing pane positioned between two backing panels with inwardly directed photovoltaic surfaces. Each edge-lit photovoltaic panel perpendicularly contacts a lateral light distributor attached to the transport conduit, causing the transparent diffusing pane to illuminate the photovoltaic surfaces to generate electrical current. The light-tracking solar collector is adapted to rotate to remain oriented toward the solar light source.

A modular photovoltaic system adapted for collecting light rays from a solar light source to generate electrical current, the system having a light-tracking solar collector adapted to collect the light rays, an edge-lit photovoltaic array, and a transport conduit adapted to transport the light rays to the edge-lit photovoltaic array. The edge-lit photovoltaic array has a plurality of edge-lit photovoltaic panels, each having a transparent diffusing pane positioned between two backing panels with inwardly directed photovoltaic surfaces. Each edge-lit photovoltaic panel perpendicularly contacts a lateral light distributor attached to the transport conduit, causing the transparent diffusing pane to illuminate the photovoltaic surfaces to generate electrical current. The light-tracking solar collector is adapted to rotate to remain oriented toward the solar light source.

A recycling method is applied to a solar cell module which includes a cover glass, an electric cell layer, and a sealing material which closely adheres the cover glass and the electric cell layer. The recycling method includes heating an interface between the cover glass and the sealing material to a prescribed temperature range; and applying a force from a side surface of the solar cell module to the sealing material with the interface maintained at the prescribed temperature range, to peel off the sealing material and the electric cell layer from the interface thereof.

The present disclosure discloses an encapsulation adhesive film 100, comprising an adhesive film body and a surface pattern provided on at least one surface of the adhesive film body, and the surface pattern comprising a first pattern extending basically along a first direction and a second pattern extending basically along a second direction, the first direction intersecting the second direction at a predetermined angle , the predetermined angle being greater than 0 and less than 180; the surface pattern comprising at least one of the first pattern and at least one of the second pattern. The surface pattern on the surface of the encapsulation adhesive film 100 effectively solves the technical problems in the prior art, achieving the enhancement of the adhesion of the encapsulation adhesive film 100 on the photovoltaic substrate, and reducing the displacement problem during the process of laying the photovoltaic modules.

To impart an re properties without reducing the amount of transmitted light, a method for processing a surface of light-transmitting-glass accord o the present invention comprises a blasting step of ejecting abrasive grains with particle sizes of #800 to #3000 average particle diameter 14 m to 4 m) such as WA (white alundum: high-purity alumina) having higher hardness than that of the glass onto a light-receiving surface of the glass having light-transmitting property to be processed for forming indentations and protrusions in the light-receiving surface of the glass, an lasting step, a hydrofluoric acid treatment step of immersing the light-receiving surface of the glass into a hydrofluoric acid solution in 10% to 20% concentration for 30 to 600 seconds thereby increase a height (amplitude) of indentations and protrusions of the surface of light-transmitting-glass.

A system and method are disclosed for quickly and easily assembling PV modules into a PV array in a sturdy and durable manner. In examples of the present technology, the system includes various couplings having a first engaging portion adapted to engage a first PV module and a second engaging portion adapted to engage a second PV module. At least one of the engaging portions allows variable positioning of the engaged PV module along the engaging portion.

A photovoltaic module, and method of making, is disclosed in which a flexible circuit is electrically coupled to a plurality of photovoltaic cells, where the photovoltaic cells are electrically coupled in series to form a series of cells. Each photovoltaic cell has free-standing metallic articles coupled to the top and bottom surfaces of a semiconductor substrate. A cell interconnection element of each photovoltaic cell is electrically coupled to a free-standing metallic article of an adjacent photovoltaic cell, where the interconnection elements of the initial and final cells in the series serve as contact ends for the series of cells. Contact tabs of the flexible circuit are electrically coupled to the contact ends of the series of cells, and a junction box is electrically coupled to a junction box contact region of the flexible circuit.