ticker NATCORE hardcore
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Prev Close: 1.11
Open:1.08
Bid: N/A
Ask: N/A§
1y Target Est: N/A
Beta: N/A§
Next Earnings Date: N/A
Day's Range: 1.07 - 1.11
52wk Range: 0.52 - 1.33
Volume: 63,888§
Avg Vol (3m): 109,720
Market Cap: 42.12M
P/E (ttm): N/A
EPS (ttm): -0.02
Div & Yield: N/A (N/A)
http://finance.yahoo.com/q?s=NTCXF&ql=1
Focused on the photovoltaic/solar industry, Natcore currently holds 16 granted patents and 21 pending patents. While the company is focused on earth-bound solar applications, their proprietary technology could address applications as mundane as coatings on eyeglasses or the inside of water heaters to sophisticated tandem solar cell technology used on satellites.
Because it is important for a small company to remain focused, Natcore recently convened a meeting of their scientific team, including their advisory board, to their lab in Rochester, NY with one purpose in mind: to review all of their technologies and potential applications, identify which of these applications the solar industry wants and needs, and prioritize that list in terms of applications with the most direct path to commercialization.
Included in this solar brain trust were Dr. David Levy , Director of Research & Technology; Dr. Dennis Flood , Chief Technology Officer; Professor Andrew Barron , Charles W. Duncan, Jr. -Welch Professor, Professor of Materials Science at RICE University ; Dr. David Carlson , former Chief Technology of BP Solar and Dr. Daniele Margadonna , Chief Technology of MX Solar.
As a result of this meeting, Natcore identified three technologies (Black Silicon, Selective Emitter and Liquid Phase Deposition Passivation) needed by the industry that could reduce manufacturing costs, increase performance, or accomplish both. The company's technology could be instrumental in delivering these applications to the industry in a relatively short time frame.
Black Silicon is the etching of nano-sized pores into a solar cell surface either through gold or silver nanoparticles. The resulting surface acts as a replacement for the antireflective coating of traditional solar cells. Natcore's scientists have become quite adept in manufacturing traditional solar cells in their lab. They have also been able to manufacture black silicon cells with the same or similar efficiencies. They are now quantifying, both internally and through third-party studies, the cost savings that this application would bring to solar cell manufacturing by using black silicon instead of the traditional anti-reflective coating. They expect to have these numbers shortly.
Selective Emitter is a process whereby varying the thickness of doping on a cell will improve the energy output and/or reduce resistance. This application has the potential to increase efficiencies by 3%-5% relative to current standards. Natcore has demonstrated that their Liquid Phase Deposition films can provide a manufacturing-friendly process needed and wanted by the industry. They have also invented technology that allows us to easily pattern these films, a requirement for using them for a selective emitter.
Liquid Phase Deposition Passivation is Natcore's proprietary process that allows surface passivation without utilization of a CVD furnace. This potentially allows the passivation of some high efficiency solar cell designs in a simpler and more cost effective way than can be done currently.
These three technologies are stand-alone applications, although the common thread that makes them work is Natcore's Liquid Phase Deposition technology. Natcore feels that they will be able to begin the marketing phase with the Black Silicon application shortly.
In addition to these three shorter-term projects, Natcore is pursuing two major long-term applications in a tandem solar cell and a flexible solar cell. These last two technologies, although not as close to commercialization, could truly change the solar industry by nearly doubling the efficiency of today's best cells or cutting manufacturing costs by up to half.
The fact that China is no longer aggressively subsidizing their solar industry has created an opportunity for technology to bring much-needed advantages to an equal playing field. Incremental improvements in power output or incremental reductions in cost will have a great impact to the cell manufacturer, and Natcore's goal is to provide those improvements.
Another critical issue is the fact that manufacturing a solar cell involves highly toxic materials. At some point as the industry continues to mature, this issue must be addressed. Natcore's technology is relatively benign compared to current industry standards. Their Liquid Phase Deposition process eliminates the use of vacuum furnaces (offering significant energy savings) and silane gas (which is highly explosive and dangerous). Natcore feels that they are at the leading edge not only in improving efficiencies and reducing costs for the solar industry, but also in addressing the toxic waste issues inherent in current solar cell manufacturing.
Natcore's management hopes this update provides investors with a better understanding of how far their research and development has come, and where they hope to be in the near future. Interested parties are encouraged to contact the company directly for more information.
Statements herein other than purely historical factual information, including statements relating to revenues or profits, or Natcore's future plans and objectives, or expected sales, cash flows, and capital expenditures constitute forward-looking statements. Forward-looking statements are based on numerous assumptions and are subject to all of the risks and uncertainties inherent in Natcore's business, including risks inherent in the technology history. There can be no assurance that such forward-looking statements will prove to be accurate, as actual results and future events could differ materially from those anticipated in such statements. Accordingly, readers should not place undue reliance on such statements. Except in accordance with applicable securities laws, Natcore expressly disclaims any obligation to update any forward-looking statements or forward-looking statements that are incorporated by reference herein.
Neither TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release.
Contact: Chuck Provini
732-576-8800
SOURCE Natcore Technology Inc.http://finance.yahoo.com/news/...ology-issues-progress-140800343.html
"Making plans to take our technology to market": Provini
? RED BANK, N.J. , Oct. 30, 2013 /CNW/ - An independent study has concluded that Natcore Technology's (NXT.V; NTCXF.PK; 8NT) black silicon technology could reduce silicon solar cell production costs by up to 23.5%.
The savings derive from a streamlining of the production process whereby a silicon wafer is processed into a black silicon solar cell.
To make solar cells, manufacturers typically acquire silicon wafers from an outside source. Since these wafers are cut from a large ingot, they usually have saw damage, which must be removed. To make a conventional solar cell, manufacturers must first remove the saw damage, then texturize the wafer surface, and then apply an antireflective coating.
To make a black silicon cell using Natcore's proprietary process, manufacturers would be able to replace the texture etch with a black silicon etch which in itself would create a highly effective antireflective coating.
Thus the most expensive part of the solar cell process – the equipment and material costs associated with high-temperature chemical vapor deposition of a silicon nitride antireflective coating – is completely eliminated.
Natcore asked analysts at the country's leading black silicon research facility to quantify the cost saving to be realized from omitting these steps. Using a "bottom up" manufacturing cost estimating methodology, the analysts calculate the production cost of a conventional silicon solar cell to be 17 cents per watt. In comparison, the study projected that cells made using Natcore's black silicon process would cost about 13 cents per watt.
The resulting savings of 3 cents /watt – 4 cents /watt represent a production cost reduction of up to 23.5%. "When solar companies are scrambling to save fractions of a cent, a saving of 3 cents – 4 cents per watt is momentous," says Dr. Dennis Flood , Natcore's co-founder and Chief Technology Officer.
In addition to the dramatic cost reduction, Natcore's test, which was conducted using monocrystalline silicon, had an important environmental benefit: it eliminated the need for silane, a highly toxic gas that combusts upon exposure to air. Natcore may plan a similar test using polycrystalline silicon at a later date.
"We knew there would be a cost saving," says Chuck Provini , Natcore's president and CEO. "We were surprised that it was so large. In fact, production-cost savings of this magnitude will likely overshadow any power gains of black silicon and will make Natcore's technology a must-have for the world's solar cell manufacturers.
"To put it into perspective," he notes, "a recent article by Shyam Mehta , senior solar analyst of GTM Research ('Technology not materials to drive down Chinese solar costs,' August 2013 ), predicts that Chinese manufacturers will be able to cut prices by only one cent in the next year or so. We could quadruple those savings in one fell swoop. We feel so optimistic about this development that we've begun making plans to take our technology to market."
"The full cost of a solar cell is the sum of two parts: the cost of the silicon wafer and the cost of the processing steps required to turn the wafer into a working solar cell," says Flood. "Cell manufacturers have no control over the cost of the silicon wafers they buy. As a result they are always looking for ways to control their production costs, but with a very important caveat: cost cutting must not lower cell performance in any way. Natcore's black silicon processing technology results in solar cells that meet or exceed the industry's requirement and at the same time provide a spectacular reduction in finished cell cost. Natcore's technology can easily be retrofitted into existing solar cell production lines and can just as easily be incorporated into a new line. Black silicon seems poised to become the industry's standard approach."
Statements in this press release other than purely historical factual information, including statements relating to revenues or profits, or Natcore's future plans and objectives, or expected sales, cash flows, and capital expenditures constitute forward-looking statements. Forward-looking statements are based on numerous assumptions and are subject to all of the risks and uncertainties inherent in Natcore's business, including risks inherent in the technology history. There can be no assurance that such forward-looking statements will prove to be accurate, as actual results and future events could differ materially from those anticipated in such statements. Accordingly, readers should not place undue reliance on such statements. Except in accordance with applicable securities laws, Natcore expressly disclaims any obligation to update any forward-looking statements or forward-looking statements that are incorporated by reference herein.
Neither TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release.
Contact: Chuck Provini
732-576-8800
Info@natcoresolar.com
www.natcoresolar.com
SOURCE Natcore Technology
Contact:
http://www.natcoresolar.com
http://finance.yahoo.com/news/...-technology-projected-130300483.html
http://finance.yahoo.com/q/pr?s=NTCXF
29.11.13 1,0442 1,05§0,9413 0,9754 $ 156.801 145 T
..da kommste in Himmel ..und dann fracht der liebe Herrgott Dir ..::na Willem watt haste jemacht aus Deim Leben ..und dann musste sagen ..::nüscht hab ick jemacht ..::Strohmatten hab ick jeflochten
buran & Willem,Die Börsen Strohmatten Flechters Herrgott Nüschtmachers
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15:05 02.12.13
PR Newswire
RED BANK, N.J., Dec. 2, 2013
RED BANK, N.J., Dec. 2, 2013 /PRNewswire/ -- Two weeks after an independent study concluded that Natcore Technology's (NXT.V; NTCXF.PK; 8NT) black silicon technology could reduce silicon solar cell production costs by up to 23.5%, the company has taken additional steps that could further reduce production costs and hazardous effluents.
Black silicon technology can eliminate the plasma enhanced chemical vapor deposition (PECVD) of silicon nitride currently in solar cell production lines. Now Natcore scientists are developing laser processing to replace the high-temperature diffusion furnace in the solar cell production process, thus significantly reducing energy and chemical costs associated with the furnace. They have identified a versatile laser that the company plans to acquire for its R&D Center in Rochester, NY.
In typical solar cell manufacturing, the surface of the cell is doped in a process that involves heating the entire silicon wafer to a temperature in the range of 800 to 900°C. The process can damage the silicon, and wastes considerable energy. Laser doping works by firing a focused laser beam on the wafer. A small amount of dopant is initially sitting on the surface. The laser beam actually melts the silicon, which then re-solidifies, usually in less than one microsecond. The microsecond, however, is enough time to accomplish the doping.
Because the laser delivers energy to a very localized area, it would heat only that portion of the wafer that needs to be heated and can lead to more efficient solar cells. Furthermore, a laser would reduce the amount of energy required to produce solar cells, because it would no longer be necessary to heat the whole cell and the furnace around it.
The laser that is being considered by Natcore can be extensively manipulated so that optimum conditions can be found. Natcore is working with the laser producer to process an initial set of samples at their facility to accelerate Natcore's schedule.
To gain expertise in the use of lasers to process solar cells, Natcore has engaged Prof. Mool Gupta and his research group at the University of Virginia. Professor Gupta is a Langley Distinguished Professor in the Department of Electrical and Computer Engineering, and is also the Founding Director of NSF Industry/University Cooperative Research Center (I/UCRC) for Lasers and Plasmas at the university.
"Between Prof. Gupta and Dr. Dave Carlson (a member of Natcore's Technology Advisory Board) we have two individuals who have deep experience in this field," says Dr. David Levy, Natcore's Director of Research & Technology. "For Natcore adding laser processing to our repertoire has important implications. First, it gets us in on the ground floor with a technology that we feel will represent the next generation of high-efficiency/low-cost solar cells. Second, it's an excellent fit with our black silicon technology.
"We are reinventing the way that solar cells are made," says Chuck Provini, Natcore's president and CEO. "We are streamlining the process by removing costly steps and by eliminating dangerous and expensive chemicals, like silane and phosphorous oxychloride. We are making it a low-temperature process. Although we can't quantify it yet, we believe the result will be lower cost, higher efficiency and better quality. We believe that's what our licensees will want."
Statements in this press release other than purely historical factual information, including statements relating to revenues or profits, or Natcore's future plans and objectives, or expected sales, cash flows, and capital expenditures constitute forward-looking statements. Forward-looking statements are based on numerous assumptions and are subject to all of the risks and uncertainties inherent in Natcore's business, including risks inherent in the technology history. There can be no assurance that such forward-looking statements will prove to be accurate, as actual results and future events could differ materially from those anticipated in such statements. Accordingly, readers should not place undue reliance on such statements. Except in accordance with applicable securities laws, Natcore expressly disclaims any obligation to update any forward-looking statements or forward-looking statements that are incorporated by reference herein.
Neither TSX Venture Exchange nor its Regulation Services Provider (as that term is defined in the policies of the TSX Venture Exchange) accepts responsibility for the adequacy or accuracy of this release.
Contact:
Chuck Provini
732-576-8800
Info@natcoresolar.com
www.natcoresolar.com
SOURCE Natcore Technology
Quelle: PR Newswire
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