Intermolecular - Semi-IP-Dienstleister - 500 Beiträge pro Seite
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...bin über die FSLR-Kooperation drauf aufmerksam geworden:
January 7, 2013
First Solar Extends and Expands Collaboration and Licensing Agreement With Intermolecular
Program Targets Conversion Efficiency Gains Beyond First Solar's Previously Announced Roadmap Leveraging Intermolecular's Combinatorial Platform
SAN JOSE, Calif. and TEMPE, Ariz., Jan. 7, 2013 (GLOBE NEWSWIRE) -- Intermolecular, Inc. (Nasdaq:IMI) and First Solar, Inc. (Nasdaq:FSLR) today announced they have entered into a two-year collaboration and licensing agreement focused on further increases to the conversion efficiency of First Solar's cadmium telluride (CdTe) solar cell technology. Under the new collaborative development program, First Solar and Intermolecular researchers will work together to develop disruptive new approaches to increasing the performance of CdTe solar cell technology using Intermolecular's proprietary High Productivity Combinatorial (HPC™) platform. The program targets substantial gains in First Solar's module conversion efficiency beyond its previously announced roadmap.
"We are excited to extend and deepen our collaboration with IMI. The combinatorial approach to material and process screening has shown promise to augment First Solar's already world-leading research and development capabilities in CdTe solar technology, enabling better performance and faster time-to-market," said Raffi Garabedian, First Solar's Chief Technology Officer. "This program targets disruptive advances in our module performance which will be additive to our current roadmap. We are confident this effort will bear fruit in the coming years, combining with our other new R&D advances to extend our leadership in photovoltaic technology and further enhance value for our power plant customers."
Sandeep Nijhawan, Vice President and General Manager of Intermolecular's Clean Energy Group, noted, "We are excited to partner with First Solar, a global leader in thin-film photovoltaic technology and systems. Extending and expanding the collaboration with First Solar after working closely with them last year represents tremendous validation of our value proposition. We look forward to be closely working with First Solar to further increase CdTe solar cell conversion-efficiency by leveraging our HPC platform and capabilities."
Intermolecular's mission is to improve R&D efficiency in the semiconductor and clean-energy industries through collaborations that use its HPC platform, which allows R&D experimentation to be performed at speeds up to 100 times faster than traditional methods.
January 7, 2013
First Solar Extends and Expands Collaboration and Licensing Agreement With Intermolecular
Program Targets Conversion Efficiency Gains Beyond First Solar's Previously Announced Roadmap Leveraging Intermolecular's Combinatorial Platform
SAN JOSE, Calif. and TEMPE, Ariz., Jan. 7, 2013 (GLOBE NEWSWIRE) -- Intermolecular, Inc. (Nasdaq:IMI) and First Solar, Inc. (Nasdaq:FSLR) today announced they have entered into a two-year collaboration and licensing agreement focused on further increases to the conversion efficiency of First Solar's cadmium telluride (CdTe) solar cell technology. Under the new collaborative development program, First Solar and Intermolecular researchers will work together to develop disruptive new approaches to increasing the performance of CdTe solar cell technology using Intermolecular's proprietary High Productivity Combinatorial (HPC™) platform. The program targets substantial gains in First Solar's module conversion efficiency beyond its previously announced roadmap.
"We are excited to extend and deepen our collaboration with IMI. The combinatorial approach to material and process screening has shown promise to augment First Solar's already world-leading research and development capabilities in CdTe solar technology, enabling better performance and faster time-to-market," said Raffi Garabedian, First Solar's Chief Technology Officer. "This program targets disruptive advances in our module performance which will be additive to our current roadmap. We are confident this effort will bear fruit in the coming years, combining with our other new R&D advances to extend our leadership in photovoltaic technology and further enhance value for our power plant customers."
Sandeep Nijhawan, Vice President and General Manager of Intermolecular's Clean Energy Group, noted, "We are excited to partner with First Solar, a global leader in thin-film photovoltaic technology and systems. Extending and expanding the collaboration with First Solar after working closely with them last year represents tremendous validation of our value proposition. We look forward to be closely working with First Solar to further increase CdTe solar cell conversion-efficiency by leveraging our HPC platform and capabilities."
Intermolecular's mission is to improve R&D efficiency in the semiconductor and clean-energy industries through collaborations that use its HPC platform, which allows R&D experimentation to be performed at speeds up to 100 times faster than traditional methods.
GLOBALFOUNDRIES, IBM, Intermolecular Collaborate to Speed Advanced Logic Development
SAN JOSE, Calif., Oct. 2, 2012 (GLOBE NEWSWIRE) -- Intermolecular, Inc. today announced that GLOBALFOUNDRIES and IBM will leverage Intermolecular's High Productivity Combinatorial (HPC™) technology, as the companies work to speed development of manufacturing technologies down to the 10nm node.
Intermolecular's combinatorial technology allows many more tests to be done using a single wafer. This enables experimental data to be generated and analyzed with significantly greater speed and efficiency than a traditional development line, accelerating innovation in materials, processes, and device architectures.
"IBM and GLOBALFOUNDRIES are committed to pushing forward the leading-edge of IC logic manufacturing with new materials and device structures," said Gary Patton, VP Semiconductor Research for IBM. "Intermolecular's HPC technology will help to more rapidly explore materials and processing options for advanced logic manufacturing."
"We are pleased that IBM and GLOBALFOUNDRIES will be able to leverage our HPC platform to address GLOBALFOUNDRIES' high-volume manufacturing R&D challenges," said David Lazovsky, Intermolecular president and CEO.
"Our business model is built on collaboration, both in customer engagements and technology development," commented David Bennett, vice president of alliances for GLOBALFOUNDRIES. "Collaborating with Intermolecular has strengthened our R&D pipeline and improved R&D efficiency."
Intermolecular's mission is to drive our customers' success by transforming R&D and accelerating innovation in markets that derive competitive advantage from the interaction of materials science, processes, integration and device architecture.
SAN JOSE, Calif., Oct. 2, 2012 (GLOBE NEWSWIRE) -- Intermolecular, Inc. today announced that GLOBALFOUNDRIES and IBM will leverage Intermolecular's High Productivity Combinatorial (HPC™) technology, as the companies work to speed development of manufacturing technologies down to the 10nm node.
Intermolecular's combinatorial technology allows many more tests to be done using a single wafer. This enables experimental data to be generated and analyzed with significantly greater speed and efficiency than a traditional development line, accelerating innovation in materials, processes, and device architectures.
"IBM and GLOBALFOUNDRIES are committed to pushing forward the leading-edge of IC logic manufacturing with new materials and device structures," said Gary Patton, VP Semiconductor Research for IBM. "Intermolecular's HPC technology will help to more rapidly explore materials and processing options for advanced logic manufacturing."
"We are pleased that IBM and GLOBALFOUNDRIES will be able to leverage our HPC platform to address GLOBALFOUNDRIES' high-volume manufacturing R&D challenges," said David Lazovsky, Intermolecular president and CEO.
"Our business model is built on collaboration, both in customer engagements and technology development," commented David Bennett, vice president of alliances for GLOBALFOUNDRIES. "Collaborating with Intermolecular has strengthened our R&D pipeline and improved R&D efficiency."
Intermolecular's mission is to drive our customers' success by transforming R&D and accelerating innovation in markets that derive competitive advantage from the interaction of materials science, processes, integration and device architecture.
Antwort auf Beitrag Nr.: 43.996.410 von R-BgO am 08.01.13 19:11:30beobachte ich schon seit ca 2 monaten...ist mir NOCH zu teuer...
Antwort auf Beitrag Nr.: 43.996.563 von pickuru am 08.01.13 19:40:00habe mir auch erstmal nur ein paar Ansichtsstücke geholt
April 17, 2013
Collaboration Focused on Next Generation Memory
SAN JOSE, CA - April 17, 2013 - Intermolecular, Inc. (NASDAQ:IMI) today announced that it has entered into a multi-year technology development and IP licensing agreement with Micron Technology, Inc. (NASDAQ:MU), focused on technology development and related IP for advanced memory technologies.
The collaboration will involve development activities at Intermolecular’s R&D center in San Jose and will leverage Intermolecular’s High Productivity Combinatorial (HPCTM) innovation platform. The collaboration is also anticipated to provide time-to-market improvements for Micron through acceleration of advanced materials development.
“New materials and device architectures are increasingly needed to meet future embedded and mobile technology requirements, and partnering with Micron in this exciting area is a significant milestone for Intermolecular,” said Dave Lazovsky, president and CEO of Intermolecular.
“Micron’s global R&D efforts are focused on creating advanced memory solutions, and webelieve development of new materials technology is a key enabler to many of our future challenges,” said Scott DeBoer, Micron’s vice president of research & development. “We look forward to working with Intermolecular to enhance our novel materials development efforts.”
Intermolecular’s mission is to improve R&D efficiency in the semiconductor and clean energy industries through collaborations that use its HPC platform, which allows R&D experimentation to be performed at speeds up to 100 times faster than traditional methods.
Collaboration Focused on Next Generation Memory
SAN JOSE, CA - April 17, 2013 - Intermolecular, Inc. (NASDAQ:IMI) today announced that it has entered into a multi-year technology development and IP licensing agreement with Micron Technology, Inc. (NASDAQ:MU), focused on technology development and related IP for advanced memory technologies.
The collaboration will involve development activities at Intermolecular’s R&D center in San Jose and will leverage Intermolecular’s High Productivity Combinatorial (HPCTM) innovation platform. The collaboration is also anticipated to provide time-to-market improvements for Micron through acceleration of advanced materials development.
“New materials and device architectures are increasingly needed to meet future embedded and mobile technology requirements, and partnering with Micron in this exciting area is a significant milestone for Intermolecular,” said Dave Lazovsky, president and CEO of Intermolecular.
“Micron’s global R&D efforts are focused on creating advanced memory solutions, and webelieve development of new materials technology is a key enabler to many of our future challenges,” said Scott DeBoer, Micron’s vice president of research & development. “We look forward to working with Intermolecular to enhance our novel materials development efforts.”
Intermolecular’s mission is to improve R&D efficiency in the semiconductor and clean energy industries through collaborations that use its HPC platform, which allows R&D experimentation to be performed at speeds up to 100 times faster than traditional methods.
Schlag auf Schlag:
April 22, 2013
Accelerating R&D of new materials and manufacturing processes for LEDs using Intermolecular’s combinatorial technology platform.
SAN JOSE, CA - April 22, 2013 - Intermolecular, Inc. (NASDAQ:IMI) announcestoday that Epistar, Corp. (TWSE:2448) and Intermolecular, Inc. (NASDAQ:IMI), have signed a collaborative development program (CDP) and royalty-bearing IP licensing agreement to increase the efficiency and reduce cost of Epistar’s light emitting diode (LED) devices. Under this agreement, Epistar and Intermolecular engineers will work together to leverage Intermolecular’s High Productivity Combinatorial (HPC™) technology platform to dramatically accelerate development and manufacturing qualification of novel materials and processes for advanced LED products.
“After a rigorous review of Intermolecular’s capabilities through an initial collaboration engagement, we have seen how their combinatorial approach to materials innovation and device integration can augment Epistar's leadership in LED technology,” said M. J. Jou, president of Epistar. “Collaboration with our industry partners has been critical to our world-leading R&D and manufacturing strategy. We are confident that leveraging Intermolecular’s team and technology platform will further increase our competitive advantage.”
The commercial LED market is highly competitive, and new technologies created by R&D are needed to both improve light output and to reduce costs. A multi-functional team of technologists from Epistar and Intermolecular will work together using the HPC Platform to accelerate the pace of R&D ten times or more compared to what can be achieved in a conventional LED lab.
“We are very excited to partner with Epistar, a global leader in LED manufacturing,” commented Sandeep Nijhawan, senior vice president and general manager of Intermolecular’s clean energy group. “Entering into a strategic engagement with a top-tier LED company like Epistar validates the applicability and disruptive potential of the HPC technology platform for LEDs, a market that continues to have tremendous room for growth and technology innovation.”
Intermolecular's mission is to improve R&D efficiency in the semiconductor and clean energy industries through collaborations that use its HPC platform, which allows R&D experimentation to be performed at speeds up to 100 times faster than traditional methods.
April 22, 2013
Accelerating R&D of new materials and manufacturing processes for LEDs using Intermolecular’s combinatorial technology platform.
SAN JOSE, CA - April 22, 2013 - Intermolecular, Inc. (NASDAQ:IMI) announcestoday that Epistar, Corp. (TWSE:2448) and Intermolecular, Inc. (NASDAQ:IMI), have signed a collaborative development program (CDP) and royalty-bearing IP licensing agreement to increase the efficiency and reduce cost of Epistar’s light emitting diode (LED) devices. Under this agreement, Epistar and Intermolecular engineers will work together to leverage Intermolecular’s High Productivity Combinatorial (HPC™) technology platform to dramatically accelerate development and manufacturing qualification of novel materials and processes for advanced LED products.
“After a rigorous review of Intermolecular’s capabilities through an initial collaboration engagement, we have seen how their combinatorial approach to materials innovation and device integration can augment Epistar's leadership in LED technology,” said M. J. Jou, president of Epistar. “Collaboration with our industry partners has been critical to our world-leading R&D and manufacturing strategy. We are confident that leveraging Intermolecular’s team and technology platform will further increase our competitive advantage.”
The commercial LED market is highly competitive, and new technologies created by R&D are needed to both improve light output and to reduce costs. A multi-functional team of technologists from Epistar and Intermolecular will work together using the HPC Platform to accelerate the pace of R&D ten times or more compared to what can be achieved in a conventional LED lab.
“We are very excited to partner with Epistar, a global leader in LED manufacturing,” commented Sandeep Nijhawan, senior vice president and general manager of Intermolecular’s clean energy group. “Entering into a strategic engagement with a top-tier LED company like Epistar validates the applicability and disruptive potential of the HPC technology platform for LEDs, a market that continues to have tremendous room for growth and technology innovation.”
Intermolecular's mission is to improve R&D efficiency in the semiconductor and clean energy industries through collaborations that use its HPC platform, which allows R&D experimentation to be performed at speeds up to 100 times faster than traditional methods.
On August 20, 2013, the Ulyanovsk Center for Technology Transfer of the Russian Federation ("UCTT") issued a press release announcing that Intermolecular, Inc., UCTT, International Innovative Nanotechnology Center of the Russian Federation and the Center of Nanotechnologies and Nanomaterials of the Republic of Mordovia of the Russian Federation have signed a non-binding term sheet to establish a platform that accelerates the application of thin film coatings of various materials for industry. The term sheet provides for the establishment of a project company which will use the platform to promote the research and development of intellectual property, commercialization of new technologies, and formation of new companies that will develop coatings for glass, photovoltaic devices, electronics, and displays. The project company will receive remuneration from its customers in the form of R&D service fees and licensing royalty payments which will be shared between Intermolecular and project company commensurate with each party's contribution to the development of business and intellectual property. The transaction is subject to the negotiation and finalization of deal terms and documents. There is no assurance that the transaction will be consummated.
mächtig verprügelt worden....
Epistar and Intermolecular Extend LED and IP Agreement
Published on 23 April 2014
Intermolecular, Inc., a company that works to accelerate research and development (R&D) for semiconductor and clean energy industries, today announced that Epistar Corp. and Intermolecular have signed a multi-year extension of their existing collaborative development program (CDP) and royalty-bearing intellectual property (IP) licensing agreement to increase the efficiency and reduce the cost of Epistar’s light-emitting diode (LED) devices.
Under the terms of the agreement, which was initially established in April 2013, Epistar and Intermolecular engineers will continue to work together to leverage Intermolecular’s High Productivity Combinatorial (HPC) technology platform to dramatically accelerate development and manufacturing qualification of novel materials and processes for advanced LED products.
Intermolecular’s mission is to improve R&D efficiency in the semiconductor and clean energy industries through collaborations that use its HPC platform, which allows R&D experimentation to be performed at speeds up to 100 times faster than traditional methods.
Published on 23 April 2014
Intermolecular, Inc., a company that works to accelerate research and development (R&D) for semiconductor and clean energy industries, today announced that Epistar Corp. and Intermolecular have signed a multi-year extension of their existing collaborative development program (CDP) and royalty-bearing intellectual property (IP) licensing agreement to increase the efficiency and reduce the cost of Epistar’s light-emitting diode (LED) devices.
Under the terms of the agreement, which was initially established in April 2013, Epistar and Intermolecular engineers will continue to work together to leverage Intermolecular’s High Productivity Combinatorial (HPC) technology platform to dramatically accelerate development and manufacturing qualification of novel materials and processes for advanced LED products.
Intermolecular’s mission is to improve R&D efficiency in the semiconductor and clean energy industries through collaborations that use its HPC platform, which allows R&D experimentation to be performed at speeds up to 100 times faster than traditional methods.
flatlining
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Thread: Ilika - Die neue Tesla!?
Antwort auf Beitrag Nr.: 49.861.165 von R-BgO am 27.05.15 23:16:21
konstant 25% Rendite...
leider mit Minuszeichen
Computational materials development scheint ein Modethema zu sein; Oerlikon hat gerade Scoperta gekauft: Thread: Oerlikon
jetzt stirbt auch noch das kümmerliche bisschen Restumsatz so langsam ab...
Antwort auf Beitrag Nr.: 56.066.270 von R-BgO am 31.10.17 16:05:22
in Q2
gab es einen Gewinn!!!!
Es sind aber de facto nur 2 Kunden:
Samsung und Micron machen 82% vom Umsatz aus
Samsung und Micron machen 82% vom Umsatz aus
Verlust eingeloggt:
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