Sunfilm and Applied Materials Achieve Solar Industry Milestone

Date: 29 April 2009
Source: Sunfilm, AG
Sunfilm, AG and Applied Materials, Inc., announced on April 21, 2009, that the world’s first tandem junction SunFab Thin Film Line installed at Sunfilm´s Grossroehrsdorf facility achieved factory acceptance on April 14, 2009.

Using 5.7m2 substrates, the line passed final acceptance test certification, verifying that it has met specifications for producing solar photovoltaic modules with efficiencies of up to 8%, as well as yield and overall annual capacity specifications. The line is now beginning volume production.

“We are pleased to have demonstrated that tandem junction technology is scalable to large-size panels and that these higher efficiency panels can be produced at volumes that make them ideal for utility scale solar installations,” said Mike Splinter, chairman and CEO of Applied Materials. “The ramp of SunFab tandem junction lines is an important business and technological achievement that brings the industry another step closer to dramatically changing the way the world generates energy.”

“This is a major milestone in the ramp-up of our factory,” said Wolfgang Heinze, Sunfilm’s COO and Chairman of the Executive Board. “The engineering teams from Sunfilm and Applied Materials have worked together intensively to get our performance to this impressive level. We are proud to have the first tandem junction production line in the world where this certification has been reached.”

“This is an outstanding accomplishment for both Sunfilm and Applied. It demonstrates technical excellence and our ability to collaborate and execute to enable our customer’s success,” said Dr. Randhir Thakur, senior vice president, general manager SunFab Thin Film Solar and Display Business Group. “Rapidly driving leading edge technology into manufacturing is a core capability of Applied and this milestone is another demonstration of our ability to quickly move tandem junction technology from the lab to commercial production.”

Thin film tandem junction panels use about 1/50th of the amount of silicon per watt of electricity produced compared with traditional solar modules fabricated using crystalline silicon wafers. By combining tandem junction technology with ultra-large 5.7m2 substrates and volume manufacturing capabilities, Sunfilm expects to meet a wide range of customer applications for full-, half- and quarter-size panels, which can substantially reduce the cost of installed solar electricity. A quarter-size 1.4m2 module generates up to 115Wp, while a full-size 5.7m2 panel will deliver about 450Wp. “We are very pleased with this achievement. This success makes tandem junction thin film silicon a reality and positions Sunfilm to serve the market with an environmentally-friendly product that achieves high kilowatt hours at attractive costs,” said Dr. Sven Hansen, Chief Investment Officer of Good Energies and Chairman of Sunfilm’s Supervisory Board.

“This is excellent news for our existing and future customers,” said Dr. Sicco W.T. Westra, Chief Business Development Officer of Sunfilm. “We can now begin delivery of our products in larger quantities. With a total annualized capacity of over 120MWp between this first production line and our second production line that we plan to start up later this year, we are in a strong position to fulfill market demand.”

600450 Sunfilm and Applied Materials Achieve Solar Industry Milestone

See more news about:

Others also read

We sincerely thank all our members, friends and visitors for being part of GlassOnWeb and its success during 2009.
For further upscaling, the plant has provision for a second float line which can support an additional 850 tonnes per day.  With an aim to further strengthen its leadership position in the glass industry, the Rs15bn.
A prestigious international prize states the poetic beauty and the architectural value of “Tiberio's Baths” in Panticosa (Spain), the new health and wellbeing centre in the heart of the Spanish Pyrenees made entirely using special glass blocks with a trapezoidal section.
During the annual Dujat December Dinner on Thursday 10 December 2009, Minister for Economic Affairs, Ms.
A team of researchers from the University of Vigo, Rutgers University in the United States and Imperial College London, in the United Kingdom, has developed "laser spinning", a novel method of producing glass nanofibres with materials.
Chicago — December 17, 2009 — Designers and engineers examined the product pages on nearly one million times in 2009 in hopes of finding the right materials or technologies for their projects.

Add new comment