Comprising industry leaders whose offerings span the photovoltaic (PV) manufacturing spectrum -- from raw materials to finished cells -- the alliance is investigating the use of Synova's Laser MicroJet (LMJ) technology with liquids other than pure water to prove LMJ's viability for wafering and microstructuring applications.

Specifically, the alliance is exploring LMJ for laser chemical processing (LCP), an approach that extends beyond laser chemical etching to other processes, first published by ISE in 2001 at the European Photovoltaic Solar Energy Conference (EUPVSEC) in Munich.

Through this concerted research effort, the alliance members expect to produce a superior alternative to conventional lasers, chemical processes, diamond blade saws and multi-wire slurry saws, aimed to increase solar cell efficiency while lowering overall cell cost. While conventional lasers have yielded the most promising results for these processes to date, Synova's LMJ -- a proven entity in the IC market due to its manufacturing and end-device performance advantages -- can take these benefits even further.

Its "wet" approach offers improved cell integrity by eliminating heat and silicon surface damage, as well as contamination from the process debris associated with "dry" lasers. Given LMJ's advantages coupled with the use of chemicals, the alliance is examining LCP's ability to address a host of PV wafering and microstructuring techniques -- grooving, cutting, slicing, doping, etching, isolation and via drilling, to name a few.

Dr. Daniel Kray, head of group, Micro-patterning and Laser-chemical Technologies within Fraunhofer ISE's Silicon Solar Cells Department, commented, "The solar industry is evolving rapidly, as are the manufacturing technologies that will enable its continued growth. The Institute is committed to effecting progress in this field, and is leveraging Synova's Laser MicroJet to discover further applications that will help drive continued adoption of solar energy around the world."

"Teaming with this renowned research institute and the other PV manufacturing leaders will enable Synova to join a collective brain trust that's unmatched in the industry," noted Synova CEO Bernold Richerzhagen.

"We're excited by the prospect of exploring new opportunities to extend Laser MicroJet's capability beyond the progress it has already brought to solar-cell production. Synova is deeply committed to pushing LMJ as far as it can go for the alternative energy space as well as other industries, and we warmly embrace strategic alliances like this to drive technology innovation and adoption."

The research alliance is in part a follow-on to the preliminary study the Institute released in July 2007 on solar-cell edge isolation. After initial collaborative work on applications for the LMJ in the PV industry in 2002, the Institute acquired a Synova tool, the Laser Cutting System (LCS) 300, the following year.

The alliance's efforts began to intensify in early 2007, and research is expected to continue through Q1 2009. In supporting the alliance's research, the Institute will install another LMJ machine for this project to be shipped in March.

This collaboration also expands on Synova's other efforts in the PV market. Last April, the company announced a licensing partnership with leading systems and components supplier Manz Automation that is solely dedicated to developing cost-effective manufacturing equipment for mono- and multi- crystalline solar cells.

Following this, the Synova-Manz partnership unveiled an inline laser edge isolation system-the ILE 2400-at the 22nd EUPVSEC in Milan, Italy. Manz will begin accepting orders for this system by June this year.

Related Links
Fraunhofer Institute for Solar Energy Systems (ISE)
All About Solar Energy at SolarDaily.com

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