NanoMarkets Releases New Report on Markets for Molybdenum in Solar and Electronics In the report NanoMarkets quantifies the markets for molybdenum in solar panels, displays and advanced lighting and also looks at molybdenum compounds molybdenum disilicide, molybdenum disulfide, molybdenum oxide, and molybdenum-doped zinc oxide. Glen Allen Virginia, October 27, 2011 - Industry analyst firm NanoMarkets announced the release of its latest market report on electrode materials titled, “Molybdenum Markets in the Electronics and Solar Industries -2011.” In this report, NanoMarkets identifies and quantifies the markets for molybdenum in important emerging markets including solar panels, displays and advanced lighting. In addition to covering novel uses of molybdenum itself, this report also looks at emerging applications for molybdenum compounds such as molybdenum disilicide, molybdenum disulfide, molybdenum oxide, and molybdenum-doped zinc oxide. Additional details about the report are available at the NanoMarkets website at http://nanomarkets.net/market_reports/report/molybdenum_markets_in_the_electro nics_and_solar_industries_2011 While this report focuses on the use of molybdenum for electrode applications, it also discusses the current and future use of use of molybdenum and its compounds in related markets such as heating elements and sealants. Among the firms that are discussed in this report are American Elements, Angstrom Sciences, Avancis, First Solar, GE, Honda Soltec, Kurt J. Lasker, Q-Cells, Samsung, Soltecture, Sylhan and Würth Solar. As with other NanoMarkets reports, this report on molybdenum pinpoints opportunities and also provides eight-year forecasts, broken out by application. From the Report: Molybdenum’s high conductivity and especially its ability to adhere to CIGS absorber layers has made it the dominant material for bottom contacts in the CIGS solar panel sector, a sector that is expected to grow rapidly over in the near future. In addition, NanoMarkets believes that the strong performance of molybdenum in the CIGS sector will encourage its use in other solar panel sectors; especially in the CdTe solar panels, which, to date have been the most successful of all the thin-film photovoltaics offerings. There is also considerable R&D work currently being carried on into using molybdenum in and molybdenum compounds for OLED displays and lighting. The new NanoMarkets report notes that, although OLED technology has considerable market potential over the next decade and has received backing from the largest firms in displays, smartphones and lighting, it is still struggling to find optimal electrode materials. In particular, the OLED industry is desperately seeking electrode materials that are less vulnerable to corrosion and which can lead to higher performance for the OLEDs themselves. While NanoMarkets believes that molybdenum will find new markets in the electronics and solar panel industry in the near future, the report also notes that much will depend on its pricing. If inflationary trends ultimately lead to much higher prices for molybdenum, solar panel makers and other users will look for ways to avoid molybdenum, with aluminum and copper serving as acceptable substitutes in the solar panel industry, for example.
About NanoMarkets: NanoMarkets tracks and analyzes emerging market opportunities in energy, electronics and other markets created by developments in advanced materials. The firm is a recognized leader in industry analysis and forecasts for the display, solar panels and lighting industry and has been covering the market for electrodes and electrode materials for these markets for more than four years. Visit http://www.nanomarkets.net for a full listing of NanoMarkets' reports and other services. Contact: Robert Nolan NanoMarkets PO Box 3840 Glen Allen, VA 23059 (804) 270-4370 firstname.lastname@example.org http://www.nanomarkets.net
Published on Oct 26, 2011
In the report NanoMarkets quantifies the markets for molybdenum in solar panels, displays and advanced lighting and also looks at molybdenum...