SHANGHAI, China, February 22, 2011 - Applied Materials, Inc., the world's leading equipment supplier to the solar photovoltaic (PV) industry, will introduce its latest advances in PV manufacturing technology at the SNEC PV Power Expo 2011 show this week in Shanghai, China. Applied's innovations are designed to help customers in China and around the world meet their green energy goals by providing technology solutions to optimize wafer and cell performance - and lower manufacturing costs.
'Applied Materials is committed to helping China in its efforts to increase domestic solar use in accordance with its 5 year plan - and we have built the world's largest privately-funded solar R&D center in Xi'an to support this effort,' said Dr. Charlie Gay, president of Applied Materials Solar. 'We are the leading supplier of PV equipment and services to China and currently have over 120 solar customers in this region. The benefits of our collaborative approach with customers have earned us three awards from major Chinese solar producers in recent months. We will continue to use our advanced technology and global service infrastructure to enhance our customers' success.'
Selective Emitter Technology for Increased Cell Efficiency
Applied Materials will report on a new Selective Emitter (SE) solution using its high-precision Esatto Technology(TM) on Applied Baccini integrated cell platforms that offers customers a rapid, low-risk route to fabricate SE structures. While a Baccini line can support any SE approach, Applied's new SE solution incorporates a high-precision imaging system, custom screens, optimized dopant paste technology developed with Honeywell Electronic Materials, and dedicated process support. Applied's SE solution has been proven to raise absolute cell efficiencies by more than 0.5% at multiple customer sites.
Rebecca Liebert, vice president and general manager at Honeywell Electronic Materials, commented, 'We believe Applied's strong track record in developing production-ready manufacturing solutions makes them an ideal collaborator in enabling our customers to optimize the performance of advanced selective emitter dopant pastes.'
New Wire Saw Technology to Significantly Increase Cutting Speed
Applied will also unveil its upgraded wire saw technology with the introduction of a new, high-strength structured wire capability for its market-leading Applied HCT Squarer(TM), which prepares silicon ingots to be cut into PV wafers. The new structured wire increases cutting speed by 70% - resulting in a 30% reduction in total system cost-of-ownership. Applied's technologists are also optimizing structured wire technology for its popular Applied HCT B5(TM) wire saw, which is used by more solar wafer manufacturers than any other wire saw system. The structured wire approach, production-proven for ingot squaring, is designed to deliver immediate and significant productivity and performance advantages when extended to wafering applications on both new and existing HCT B5 tools.
For more information, visit Applied's SNEC news page at http://www.appliedmaterials.com/snec.
Applied Materials, Inc. (Nasdaq:AMAT) is the global leader in providing innovative equipment, services and software to enable the manufacture of advanced semiconductor, flat panel display and solar photovoltaic products. Our technologies help make innovations like smartphones, flat screen TVs and solar panels more affordable and accessible to consumers and businesses around the world. At Applied Materials, we turn today's innovations into the industries of tomorrow. Learn more at www.appliedmaterials.com.
# # #
Ji Lin (China media) (+86) 158.0177.4508
Connie Duncan (U.S.media) (+1) 408.563.0647
Michael Sullivan (financial community) (+1) 408.986.7977
This announcement is distributed by Thomson Reuters on behalf of Thomson Reuters clients.
The owner of this announcement warrants that:
(i) the releases contained herein are protected by copyright and other applicable laws; and
(ii) they are solely responsible for the content, accuracy and originality of the
information contained therein.
Source: Applied Materials via Thomson Reuters ONE