DuPont and Silicon Energy Announce First Glass-Glass Photovoltaic Modules Made with DuPont™ PV5300 Series Encapsulant

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New Glass-Glass PV Modules Made with DuPont™ PV5300 Series Encapsulants

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By combining the high efficiency of crystalline silicon with the new, stronger encapsulant from DuPont, our module offers a new level of physical strength, durability and improvements in design

Silicon Energy, LLC and DuPont Photovoltaic Solutions announce the world's first glass-glass polycrystalline silicon (cSi) photovoltaic (PV) power-generating modules made with advanced DuPont™ PV5300 series ionomer-based encapsulant for added module strength and durability.

"By combining the high efficiency of crystalline silicon with the new, stronger encapsulant from DuPont, our module offers a new level of physical strength, durability and improvements in design," said Gary Shaver, director of sales for Silicon Energy.

High-efficiency crystalline silicon wafer technology is well-established in PV modules, but the fragile semiconductive wafer material requires protection against impact, flexing and moisture. Traditionally, this protection has been provided by surrounding the silicon wafers in a polymer called EVA, supplied in a sheet form.

"Compared with EVA and other available encapsulants, the new DuPont™ PV5300 sheet is based on ionomer, which is up to 100 times stiffer, 5 times stronger and much more resistant to moisture intrusion," explained Steve Cluff, global encapsulants business director for DuPont Photovoltaic Solutions. "DuPont's ionomer sheet technology comes from our advanced interlayer business for safety glass, where the original challenge was to find a clear material that could help laminated glass meet hurricane codes."

DuPont™ PV5300 Series encapsulant sheets deliver glass-like clarity plus impact resistance, high strength and proven adhesion to glass, allowing Silicon Energy to build modules suited to not only high wind loads, but also heavy snows typical during the winter season.

To manufacture its module, Silicon Energy uses two 60-mil layers of the DuPont™ PV5300 encapsulant to surround the silicon wafers, and adds high-transmittance tempered glass to complete the structure. The resulting combination of glass and ionomer sheet material delivers significantly increased flexural strength over traditional modules.

"Because the new DuPont encapsulant is more resistant to moisture intrusion, we're also able to innovate with an open-edged framing design," said Shaver. "This allows snow, water and dirt to just slide right off, which increases module performance."

The new, high-strength Silicon Energy modules are designed with frames and wiring channels along the sides, making installations simple and elegant. The company's "Cascade" design not only improves visual aesthetics, it also lets more air to circulate beneath the modules, which improves module performance.

DuPont announced commercial availability of its new PV5300 Series encapsulants in May 2009. Silicon Energy began testing the material about two years ago, and is the first manufacturer in the United States to complete a new module design with the material. The modules are fully certified and now being shipped commercially.

DuPont™ PV Series encapsulants are part of a broad and growing portfolio of products represented by DuPont Photovoltaic Solutions, which connects science and technology from across the company on a global scale to help support the dramatic growth in the photovoltaic industry. To learn more, please visit

DuPont is a science-based products and services company. Founded in 1802, DuPont puts science to work by creating sustainable solutions essential to a better, safer, healthier life for people everywhere. Operating in more than 70 countries, DuPont offers a wide range of innovative products and services for markets including agriculture and food; building and construction; communications; and transportation.

The DuPont Oval Logo, DuPont™, and The miracles of science™ are registered trademarks or trademarks of DuPont or its affiliates.


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