An encapsulant film is made from a composition comprising (A) a non-polar ethylene-based polymer having a density of 0.850 g/cc to 0.890 g/cc; (B) an organic peroxide; (C) a silane coupling agent; and (D) a co-agent comprising triallyl phosphate.

An encapsulant film is made from a composition comprising (A) a non-polar ethylene-based polymer having a density of 0.850 g/cc to 0.890 g/cc; (B) an organic peroxide; (C) a silane coupling agent; and (D) a co-agent comprising triallyl phosphate.

Disclosed is a color solar cell module including a transparent substrate, a plurality of solar cells disposed on one side of the transparent substrate and each having a light receiving part, and a color layer disposed on a surface of each of the plurality of solar cells on an opposite side surface of the light receiving part.

A partially translucent photovoltaic window is provided herein that comprises a photovoltaic module enclosed between a first window pane and a second window pane. The photovoltaic module comprises a stack with at least a first electrode layer, a second electrode layer and a perovskite photovoltaic layer sandwiched between the electrode layers. The photovoltaic window further comprises between the first window pane and the photovoltaic module as well as between the second window pane and the photovoltaic module a respective intermediate layer comprising a lead getter material.

A partially translucent photovoltaic window is provided herein that comprises a photovoltaic module enclosed between a first window pane and a second window pane. The photovoltaic module comprises a stack with at least a first electrode layer, a second electrode layer and a perovskite photovoltaic layer sandwiched between the electrode layers. The photovoltaic window further comprises between the first window pane and the photovoltaic module as well as between the second window pane and the photovoltaic module a respective intermediate layer comprising a lead getter material.

The present invention relates to a photovoltaic module, comprising: a glass panel, a back panel, a cell string including a plurality of cells encapsulated between the glass panel and the back panel, and a film containing metal oxides and/or silicon oxides disposed between the glass panel and the cell string. The photovoltaic module can block the migration of alkali metal ions and achieve the PID resistance.

The present invention relates to a photovoltaic module, comprising: a glass panel, a back panel, a cell string including a plurality of cells encapsulated between the glass panel and the back panel, and a film containing metal oxides and/or silicon oxides disposed between the glass panel and the cell string. The photovoltaic module can block the migration of alkali metal ions and achieve the PID resistance.

A movable solar module disassembling apparatus according to an embodiment of the present disclosure includes a movable container unit that is hollow, can be moved by itself or by external power, and has at least one door being able to expose the inside by opening and closing, a frame separation unit that is disposed in the movable container unit, includes a frame separation blade pressing and separating the frame from the module body, is supplied with the solar module, and discharges the module body after separating the frame, and a disassembling unit that is disposed continuously with the frame separation unit in the movable container unit, includes a scrapper scraping and separating the stacked film from the glass plate, is supplied with the module body, and disassembles and discharges the module body into the stacked film and the glass plate.

A solar module lifting apparatus includes a base supported on the ground, a cylinder module including cylinder units disposed on the base and changing in height by contracting and stretching, and a rotary supply plate having one side supporting a solar module and the other side coupled to the cylinder module and moving up and down the solar module by operation of the cylinder module, in which the rotary supply plate includes a first hinge and a second hinge spaced apart from each other on the other side, the cylinder module includes a first cylinder unit and a second cylinder unit of which the upper ends are coupled to the first hinge and the second hinge by shafts, respectively, and at least one of the height and the inclination of the rotary supply plate is adjusted by contracting or stretching of the first cylinder unit and the second cylinder unit.

One embodiment can provide a photovoltaic roof tile. The photovoltaic roof tile can include a front glass cover, a back glass cover, a plurality of photovoltaic structures positioned between the front and back glass covers, and a single encapsulant layer positioned between the front glass cover and the photovoltaic structures. A surface of the photovoltaic structures is in direct contact with the back glass cover.