HelioVolt and NREL Extend CRADA to Commercialize Solar Nanotechnology; Collaboration Will Develop Non-Vacuum Deposition Processes Optimized for HelioVolt's Award-Winning FASST(TM) Manufacturing Process for CIGS Thin-Film Photovoltaics.AUSTIN, Texas -- Building on more than two years of collaboration with the National Renewable Energy Laboratory The National Renewable Energy Laboratory (NREL), located in Golden, Colorado, as part of the U.S. Department of Energy, is the United States' primary laboratory for renewable energy and energy efficiency research and development. (NREL NREL National Renewable Energy Laboratory NREL Natural Resource Ecology Laboratory (Colorado State University, Fort Collins, CO) ), HelioVolt today announced it will extend the Cooperative Research and Development Agreement “CRADA” redirects here. For other uses, see CRADA (disambiguation). A Cooperative Research and Development Agreement (CRADA) is an agreement between a government agency and a private company to work together. (CRADA CRADA Cooperative Research And Development Agreement ) for research carried out at NREL's facilities to include the development of non-vacuum nanomaterial-based deposition processes optimized for HelioVolt's proprietary FASST FASST Flexible Architecture for Subscriber Service Termination (Fujitsu) FASST Flexible Architecture Standard System Technology FASST Fault-Tolerant Architecture with Stable Storage Technology (TM) manufacturing technology. The fastest and most efficient way to manufacture thin-film CIGS CIGS Ceilings (general aviation weather) CIGS Copper Indium Gallium Selenide CIGS Chief of the Imperial General Staff (WWII British) CIGS Centro de Instrução de Guerra na Selva photovoltaics, FASST (TM) was recently honored with a Nano 50(TM) Award from Nanotech Briefs, a leading nanotechnology magazine from the publishers of NASA Tech Briefs NASA Tech Briefs is a magazine published by the National Aeronautics and Space Agency of the United States. This magazine is available, in either print form or electronically as PDF files, for free. . Judged by an independent panel of nanotechnology and MEMS (MicroElectroMechanical Systems) Tiny mechanical devices that are built onto semiconductor chips and are measured in micrometers. In the research labs since the 1980s, MEMS devices began to materialize as commercial products in the mid-1990s. experts, the Nano 50 award recognizes HelioVolt's process for its significant near-term impact on the market as well as the field of nanotechnology. HelioVolt is enabling new paths to solar energy solar energy, any form of energy radiated by the sun, including light, radio waves, and X rays, although the term usually refers to the visible light of the sun. marketability by building on its knowledge of the unique characteristics of the Copper Indium Gallium Selenide Sel´e`nide n. 1. (Chem.) A binary compound of selenium, or a compound regarded as binary; as, ethyl selenide s>. (CIGS) material system. As described most accurately so far in a model published by Dr. B.J. Stanbery, HelioVolt's founder, when made under the proper conditions CIGS spontaneously arranges itself at the nanoscale to create a percolation percolation /per·co·la·tion/ (per?kah-la´shun) the extraction of soluble parts of a drug by passing a solvent liquid through it. network that drastically reduces losses, making the material the most efficient and reliable thin-film for photovoltaics. By taking maximum advantage of this, HelioVolt's flexible FASST (TM) process can be used under both vacuum and atmospheric conditions to print photovoltaic The generation of voltage by a material that is exposed to light in the visible and invisible ranges. See photoelectric and photovoltaic cell. material directly onto traditional construction materials including architectural glass, steel, roofing and polymers in 80 to 98 percent less time than conventional processes. Under the terms of the CRADA, HelioVolt will work with NREL to optimize both conventional vacuum and pioneering non-vacuum deposition processes for FASST (TM) manufacturing environments. "Our collaborative efforts with NREL over the years have formed the groundwork for a viable new solar paradigm: large scale production of building materials that are durable, versatile, visually appealing and capable of economically harvesting energy from the sun," said HelioVolt president and founder, Dr. B.J. Stanbery. "NREL's expertise in preparing nanotechnology precursors is the ideal complement to our own highly-efficient process for converting those nanoscale building blocks into finished CIGS thin-film material under both vacuum and atmospheric conditions." "As the Department of Energy's laboratory for advancing renewable energy, NREL is committed to growing the value and accessibility of solar technology for the mainstream electricity market," said John Benner, Electronic Materials Group Manager at NREL's National Center for Photovoltaics. "Our initial collaboration with HelioVolt indicates that FASST (TM) enables improved manufacturing time and process flexibility, and our extended CRADA will help drive those promising results forward to commercial production." Many steps in conventional thin-film production require vacuum deposition, a process by which the thin-film material is coated onto the substrate in a very low-pressure vacuum chamber. Vacuum deposition processes can be capital intensive and depositing CIGS films in particular on large areas with the precision necessary to achieve both high performance and low manufacturing costs can be very difficult without the advantages of the FASST (TM) process. Non-vacuum or atmospheric deposition processes offer a combination of lower costs, process simplicity and reduced manufacturing times while still resulting in high-quality films when used with the HelioVolt's FASST (TM) manufacturing process which is flexible and highly controllable and thus capable of being optimized to produce high-quality thin-film through both atmospheric and vacuum techniques. About HelioVolt HelioVolt Corporation was founded in 2001 in order to develop and market new technology for applying thin-film photovoltaic coatings to conventional construction materials. The company's proprietary FASST (TM) process, based on semiconductor printing, was invented by HelioVolt founder Dr. Billy J. Stanbery, an eminent expert within the international PV community in the materials science of CIGS and related compound semiconductors. FASST (TM) is a low-cost, flexible manufacturing process for CIGS synthesis and is protected by both eight issued US patents and by global patents pending. For additional information, visit www.heliovolt.com. |
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