Abstract: The present invention provides a protective backing sheet for photovoltaic modules. The backing sheet has a layer including fluoropolymer which is cured on a substrate, and the layer includes a hydrophobic silica. The amount of hydrophobic silica contained in the layer is within the range of 2.5 to 15.0% by weight, and preferably in the range of 7.5 to 12.5%. Also, the layer including fluoropolymer may further include a titanium dioxide.

Abstract: A protective backing sheet for photovoltaic modules is provided. The backing sheet has a layer including fluoropolymer which is cured on a substrate, and the layer includes boron nitride. The amount of boron nitride contained in the layer is within the range of 2 to 30.0% by weight, and preferably in the range of 5 to 10%. Also, the layer including fluoropolymer may further include a titanium dioxide.

Abstract: A laminate for electronic devices contains a first outer layer of a layer comprising an organic solvent soluble and/or water dispersible, crosslinkable amorphous fluoropolymers, at least one mid-layer selected from at least one of the group consisting of (i) poly(chlorotrifluoro ethylene); (ii) polymeric film coated on one or both surfaces with liquid crystal polymer; (iii) liquid crystal polymers; (iv) metal foil; and (v) polyester, and a second outer layer wherein the second outer layer comprises pigmented EVA and wherein the second outer layer is substantially opaque to ultraviolet light. The laminate is particularly useful for use as a backing sheet for photovoltaic modules.

Abstract: The present invention provides a protective backing sheet for photovoltaic modules. The backing sheets of the current invention possess excellent weather resistance, heat resistance, color retention, adhesion between layers and encapsulant, and scratch resistance. The backing sheet can minimize the deterioration in the performance of the solar module due to moisture permeation. It also can achieve desirable photoelectric conversion efficiency over a long period of time. Additionally the described backing sheet, or alternatively referred to backskin, can be made in an aesthetically pleasing form.

Abstract: A protective backing sheet for photovoltaic modules is provided. The backing sheet has a layer including fluoropolymer which is cured on a substrate, and the layer includes boron nitride. The amount of boron nitride contained in the layer is within the range of 2 to 30.0% by weight, and preferably in the range of 5 to 10%. Also, the layer including fluoropolymer may further include a titanium dioxide.

Abstract: The present invention provides a protective backing sheet for photovoltaic modules. The backing sheets are capable of absorbing a wide range of solar wavelengths (UV, IR and visible) and re-emitting the absorbed solar radiation as a photons wherein the energy is at or greater than the band gap energy of corresponding semiconductor. The backing sheet can be used in a variety of applications including in photovoltaic devices.

Abstract: The present invention provides a protective backing sheet for photovoltaic modules. The backing sheet has a layer including fluoropolymer which is cured on a substrate, and the layer includes a hydrophobic silica. The amount of hydrophobic silica contained in the layer is within the range of 2.5 to 15.0% by weight, and preferably in the range of 7.5 to 12.5%. Also, the layer including fluoropolymer may further include a titanium dioxide.

Abstract: The present invention provides a protective backing sheet for photovoltaic modules. The backing sheets of the current invention possess excellent weather resistance, heat resistance, color retention, adhesion between layers and encapsulant, and scratch resistance. The backing sheet can minimize the deterioration in the performance of the solar module due to moisture permeation. It also can achieve desirable photoelectric conversion efficiency over a long period of time. Additionally the described backing sheet, or alternately referred to backskin, can be made in an aesthetically pleasing form.