Solar Cells Info

CEO, CFO and CSO to Drive Company’s US Manufacturing Ramp-up
Austin, Texas, February 4, 2009
Source: HeioVolt Corp. press release
http://www.heliovolt.net//index.php?option=com_content&task=view&id=142&Itemid=95

HelioVolt Corporation, a producer of highly efficient thin-film solar energy products, today announced additions to its executive management team as the company builds out its US manufacturing capacity. Board member Ron Bernal has been appointed as interim chief executive officer and Sanjeev Kumar, the former CFO of Energy Conversion Devices, Inc. (ECD) has joined the company as chief financial officer; founder Dr. BJ Stanbery will serve as chief strategy officer and chairman of the board. The board will conduct an international search for a permanent CEO to lead the company in its next phase of growth as a manufacturer of thin-film photovoltaic (PV) modules. (more…)

by Rachel Tompa, 4 Feb 2009
Source: Xconomy.com
http://www.xconomy.com/seattle/2009/02/04/
uw-startup-soluxra-to-form-around-organic-solar-cell-technology/

A new startup company is in the works at the University of Washington, based on inexpensive, portable solar cells that could go far beyond the standard rooftop model. Conventional solar cells are made from expensive silicon, but the UW group, led by materials science and engineering professor Alex Jen, has come up with a way to harness solar energy using thin polymer film—akin to really thin cling wrap. (more…)

R. Colin Johnson, EE Times,
Portland, Oregon, 3 Feb 2009
Source: EETimes.com
http://www.eetimes.com/news/latest/showArticle.jhtml?articleID=213000692

Thin-film solar cells can use inexpensive, low-temperature processing to stack amorphous silicon and germanium photovoltaic layers atop a reflective foil backing. By using multiple layers with semiconductor junctions tuned to different wavelengths of light, thin-film module makers claim that their solar cells are not only cheaper, but could outperform expensive crystalline solar cells in many climates. (more…)

By Stephanie Stohr, G-Online, 30 Jan. 2009
Source: G-Online.com
http://www.gmagazine.com.au/news/1193/scientists-develop-spray-solar-panels

A new type of spray-on solar panel will make the cells cheaper and production more efficient.  Taking a leaf from the beauty industry, scientists have devised a way to make solar panels cheaper and more efficient – by spraying them on.  Researchers from the Australian National University (ANU), solar company Spark Solar Australia, and Finnish materials company Braggone Oy are collaborating on a three-year project that could transform the production of solar cells.  “I think it has a big chance of success,” said Keith McIntosh, lead researcher from the ANU, “It’s an exciting possibility.” (more…)

Tempe, Az., Feb. 4, 2009
Source: Surfect Technologies, Inc, press release
http://surfect.ir.stockpr.com/news/detail/101/
surfect-technologies-announces-first-concentrator-module-shipment-and-higher-solar-efficiency-results-using-plated-metal-technology-achieves-major-milestones-towards-mass-commercialization-and-lower-solar-costs

Surfect Technologies, Inc, a provider of advanced interconnect and packaging solutions for solar cells, LED and power management applications, today announced a number of key milestones for the company including:
– successful demonstrations for leading solar manufacturers of copper plating over silver paste on solar cells using Surfect’s proprietary tool and process technology, which resulted in 0.5-0.6% higher efficiency or 4-5% increased energy capture from solar cells;
– demonstration of new metallization process for solar manufacturers that allows copper metal deposition directly on bare silicon using DEP technology, which is expected to result in 1.2% to 2.0% higher efficiency or 5% to 10% increased energy capture(1) versus silver paste, at lower cost than competing metal plating systems;
– design and shipment of the first concentrator package for a European customer that uses rugged packaging technology and Surfect’s advanced wafer-level interconnect solutions producing 3x concentration, providing a more building integrated module and lowering the solar cost per watt.
(more…)

By Scott Kirsner, December 14, 2008
Source: Boston Globe
http://www.boston.com/business/technology/articles/
2008/12/14/raising_capital_for_rays_of_energy/

Earlier this year, Bob Metcalfe called Frank van Mierlo, the chief executive of the solar start-up 1366 Technologies Inc., to see whether it was OK for Metcalfe’s venture capital firm to put a few million dollars into a similar business.  “We don’t go forward with a new investment that might be competitive with one of our existing companies, unless both CEOs are comfortable with it,” explains Metcalfe, an investor at Waltham’s Polaris Venture Partners. (more…)

Lexington, Mass.February 5, 2009
Source: 1366 Technologies press release
http://www.1366tech.com/v1/

1366 Technologies, an MIT spin-off focused on engineering and manufacturing advanced silicon solar cells, today announced the company has been awarded a cost-shared, 18-month subcontract with the National Renewable Energy Laboratory (NREL) and the U.S. Department of Energy (DOE) for the “Self-Aligned Cell: Scaling up manufacture of a cost effective cell architecture for multi-crystalline silicon photovoltaics” Project. The total potential funding from the DOE under the Solar America Initiative (SAI) is up to $3.0 million for the project. (more…)

One-acre, 1,500 solar panel array at Pioneer Hi-Bred Waimea Research Center in Kauai, Hawaii is DuPont’s largest solar installation to date
Marlboro, Ma, February 04, 2009
Source: Evergreen Solar Inc, press release
http://www.evergreensolar.com/app/en/company/press/pressreleases/item/705

Evergreen Solar, Inc. (Nasdaq: ESLR), a manufacturer of STRING RIBBON™ solar power products with its proprietary, low-cost silicon wafer manufacturing technology, announced today that a new 250 kilowatt solar energy power plant using its solar panels is now operational at DuPont’s Pioneer Hi-Bred Waimea Research Center in Kauai, Hawaii. The solar installation is DuPont’s largest and will supply 85 percent of the overall energy for the Research Center. (more…)

Copper Indium Gallium Diselenide (CIGS) solar cells pushed the market as manufacturers increased production
New Tripoli, USA, February 06, 2009
Source: CIOL.com
http://www.ciol.com/Semicon/Solar/PV/News-Reports/
Nanomaterials-for-solar-cells-grew-47-pc-in-2008/6209115650/0/

Despite a sluggish forecast for the overall high-tech industry in 2009, nanomaterials for solar cells grew 47 percent in 2008 and is projected to grow another 44 percent in 2009, according to a report: Market Outlook for Nanomaterials for Electronics Applications: Semiconductors, Solar, Displays. Sensors, RFID, Lighting, recently published by The Information Network. (more…)

Tokyo, Jan 23, 2009, AFP/Google
http://www.google.com/hostednews/afp/article/
ALeqM5jt9WDoiC4m5dFViatAcn7z5zntkA

Japan’s Sanyo Electric Co. and Nippon Oil Corp. said Friday they would collaborate to produce thin-film solar cells for large-scale power generation.  The 50-50 joint venture will spend roughly 20 billion yen (226 million dollars) to build a factory in Japan that can annually produce enough solar cells to produce electricity worth 80 megawatts. The venture should have capacity of one gigawatt by March 2016 and two gigawatts by March 2021, when the companies estimate the solar cell market will be worth 10 trillion yen. (more…)