Group items tagged

Thin-film solar company Nanosolar has been sitting on a big secret for much of this year, it turns out: The company took a $300 million financing this March, and has remained mum ever since, only detailing it on the company's blog this morning after VentureWire reported the funding. While Nanosolar hasn't been entirely secretive about its technology, with chief executive Martin Rosencheisen showing off a rapid manufacturing technique early in summer, but apparently it didn't want details leaking on this giant-sized investment until necessary. Word slipped out in April about $50 million of the total, but at the time, Nanosolar didn't want to talk - and it's now clear why. The race for funds, and ever-larger production targets, is definitely on for thin film. Secretive thin-film silicon company Optisolar has raised over $200 million this year, and Nanosolar's thin-film CIGS competitor Miasole is trying to close on a similar amount. And while dozens of other startups are also on the hunt, large companies like Oerlikon Solar and Applied Materials are pouring money into ventures of their own. In many ways, it looks like an overheated sector. But on the other hand, Optisolar's recent deal with PG&E to provide 550 megawatts of electricity suggests that the potential for thin film panels is larger than previously expected, even when considering one analyst firm's prediction earlier this year that the sector will grow at 45 percent annually. That figure could now be much higher, especially for a few big winners - of which Nanosolar will likely be one. The company will be doing some utility-scale projects of its own, Rosencheisen tells us, with experienced partners. It also has a panel built specifically for use by utilities. And one of the backers of this funding, AES Corp., is also one of the world's biggest power companies. At the moment, Nanosolar is still working toward a gigawatt of annual manufacturing capacity, but it will grow be

\nCadiz, Spain - While significant challenges remain and large-scale applications appear relatively far out on the horizon, smaller scale applications, such as organic light emitting diodes (OLEDs), are already being built into a variety of electronic products. Industry pioneers, such as G24i, have begun manufacturing their first generation of products, which in G24i's case includes a DSC-powered mobile phone charger and an award-winning "Lighting Africa" portable lamp that marries cutting-edge LED and dye-sensitized thin-film PV technologies. \n\nLooking to bring off-grid electrical power options to people in Kenya, Nigeria, Rwanda, South Africa and a still growing range of African countries, G24i in May was awarded the World Bank Group's 2008 "Lighting Africa Development Marketplace" prize for its solar-powered LED light, which uses the company's proprietary dye-sensitized thin-film solar cells in concert with light emitting diodes (LED) produced by Dutch lighting manufacturer Lemnis. \n\nG24i dye-sensitized thin-film solar cells are proving themselves rugged enough to endure some of the harshest conditions on the planet. Besides enduring the rigors of operating in various African locations, the company's DSC cells were used to generate electrical power for British explorer Robert Swan and his team during their two-week 'E-Base Goes Live' project in which they traveled to Antarctica. Despite poor sunlight, the cells contributed to the successful powering of satellite, digital and video conferencing and other communications equipment throughout the two-week long expedition.\n\nThe first person to walk to the North and South Poles, Swan is moving on to an educational sailing around the world project and G24i is working on sails for his craft that will have thin-film dye-sensitized PV cells embedded in them. \n

Solar Thin Films, Inc. (OTC BB:SLTN.OB), a developer, manufacturer and marketer of manufacturing equipment for the production of "thin-film" amorphous silicon photovoltaic modules, has entered into a strategic alliance and cross license agreement with Amelio Solar Inc. \n\nUnder the agreement, Solar Thin Films will market and sell photovoltaic products using copper indium gallium diselenide (CIGS) technology developed and commercialized by Amelio Solar, and has rights to manufacture PV module manufacturing equipment using CIGS technology subject to certain terms and agreements\n

Manufacturer joins pack of thin-film companies securing big bucks to take innovations to production stage. San Jose, Calif.-based Nanosolar has raised $300 million in equity to expand production of its thin-film panels for solar power plants, Nanosolar CEO Martin Röscheisen told the Cleantech Group today. The financing-a combination of supply deals, partnerships and funding-pushes Nanosolar to nearly half a billion dollars of capital, securing the six-year-old company's position as one of the leading thin-film producers.

"China has started mass production of graphene films used in production of cell phone and computer touch screens as a new production line began operation. The production line is in a graphene industrial park in southwest China's Chongqing Municipality. It can produce tens of millions of graphene films every year."

DuPont Photovoltaic Fluoromaterials (PVFM) announced that it has signed a Technology Licensing Agreement with Toppan Inc. Printing Co. LTD, located in Tokyo, Japan, to commercialize its new backsheet for solar photovoltaic (PV) modules. This technical and business deal with Toppan is in line with the PVFM strategic intent to significantly increase the availability of DuPont Tedlar films and backsheet for the fast growing PV market, according to the company. "This collaboration combines DuPont's proprietary technology for Tedlar polymer in backsheets, with Toppan's unique coating capability," said Kelly Kolliopoulos, global business manager of DuPont's Tedlar Division. "We view the new backsheet technology as complementary to our continuing activities to increase the supply of Tedlar films in order to meet the industry's growth and demand for Tedlar."

The road to grid parity for PV power generation will be difficult, needing five or more years to compete with utility power, unsubsidized, on a large scale, noted Mark Thirsk, managing partner at Linx Consulting, at a recent SEMI PV forecast luncheon (Sept. 18) in Santa Clara, CA Most input materials for PV production are in relative oversupply and will not constrain production, Thirsk pointed out - and for this reason manufacturers are conservative about capacity investment. In particular, his PV module production forecast (see Fig. 1, above) shows an overstep in demand in 2008. One reason for suppliers' reluctance to build capacity for entering the silicon supply chain is that it is an inefficient process. "Only about 15% of all the silicon going into the supply chain goes into the wafers, so it's a pretty wasteful and capital intensive process, so there is a lot of reluctance to build capacity," said Thirsk. Despite the efficiency challenges, Thirsk's forecast indicates that an oversupply may occur in 2009 Because >40% of PV grade silicon is lost at the wafering step, Thirsk believes this represents a significant opportunity for the right technology. Additionally, diamond wire is a potential replacement for slurry technology, but this technology is still immature. In the crystalline silicon (c-Si) value chain, Thirsk sees opportunities for optimizing mono-crystalline wafers with metal wrap technology and backside contacts; process optimization and material improvements would improve cell efficiency, and glass, wafer, backsheet, and grid improvements can enable more efficient light capture. Looking ahead, Thirsk told the audience that while thin-film technologies will enjoy strong growth "and may be more attractive to value-add materials and equipment suppliers, thin-film cell production will remain a minority share for the medium term." (see Fig. 3, below) He closed his presentation encouraging the creation of a Moore's Law type of roadmap for the PV

ArcelorMittal (NYSE: MT), a steel manufacturer based in New Deli, launched a clean technology venture capital fund to support ventures that have relevance for the carbon-intensive steel industry. The Fund has made its first investment of US$20 million in Miasolé, a California-based pioneer in the development of thin-film solar panels Miasolé has developed unique high volume manufacturing processes that enable efficient production of Copper Indium Gallium Selenium (CIGS) solar products on a flexible stainless steel substrate. This technology promises to dramatically lowers the installed cost of Photovoltaic (PV) systems and will enable renewable energy from the sun to replace carbon generating fossil fuels. Fund managers will be working with leading venture capital firms, including Bessemer Venture Partners, Khosla Ventures, and Kleiner Perkins Caufield & Byers, to identify worthy cleantech ventures. ArcelorMittal also announced that it has created a new carbon fund in order to strategically engage in the carbon market and promote climate friendly solutions that are relevant for the steel industry. The fund, which has an initial investment commitment of €100 million (US$ 157 million) is currently looking at investment opportunities in renewable energy, energy efficiency, methane capture and greenhouse gas reducing technologies--all of which have the potential to generate carbon credits under the Kyoto Protocol. ArcelorMittal intends to use the carbon credits received from these Clean Development Mechanism and Joint Implementation projects for compliance in the EU Emissions Trading Scheme.

These are heady times for the thin-film solar industry. The sector's dominant player, First Solar, has been on a tear of late, recently announcing it would build a second 10 megawatt power plant in Nevada, while Miasole, once thought to be ailing, has staged an impressive comeback, raking in an eye-popping $220 million. Nanosolar has developed a new ultra-fast solar cell printer, and even giants like IBM and Applied Materials have gotten in on the game. In the face of such intense competition, how will HelioVolt, a well-funded outpost of CIGS manufacturing in Texas, fare? The company hopes a new hybrid, super fast CIGS process it has developed in collaboration with the National Renewable Energy Laboratory (NREL), which combines its patented FASST process and NREL's non-vacuum deposition technique, will help even the odds. The Austin, Texas-based company licensed NREL's non-vacuum deposition process, which allows for the quick application of liquid precursors onto a printing plate and substrate, to manufacture its solar cells with a 12.2 percent conversion efficiency at a fraction of the regular cost and in record time - under 6 minutes. Another advantage is that the substrate can be made from a variety of building materials, including glass, metals, plastics and roofing materials.

Scientists from MIT have grown thin, pure and dense carbon nanotubes that in combination with additives can be used as electrodes to store a higher amount of capacity in batteries and super capacitors.

Greenbang went down to Kyocera's Green Card event earlier this year to hook up with Adrian Harding of the Environment Agency - he told us what's happening with the Waste Electrical and Electronic Equipment Directive… Check him out on this film…

A team of Novellus researchers will be located with CNSE staff at Albany NanoTech, where they'll conduct leading-edge research into advanced nanofabrication processes, including copper fill for interconnects, copper through-silicon via fill for three-dimensional packaging applications, tungsten deposition for transistor contacts, and thin dielectric film deposition.