Sentences with phrase «advanced materials research»

Hit by a global recession in the early 90s, Lamborghini put a halt to its advanced materials research, so Pagani decided to go it alone, creating a composites research and development company with the sole purpose of funding the creation of his own supercar.

Determination on Crystallinity of Ionic Liquids Pretreated Biomass, Hong Xue Xie, John Prausnitz, Xiu Ling Wu, Advanced Materials Research, Vols.

This means that an implant may end up carrying a far higher load than the bone it is placed next to, according to Peter Quadbeck of the Fraunhofer Institute for Manufacturing Technology and Advanced Materials Research in Dresden, Germany.

Space in the new Sir Henry Royce Institute for Advanced Materials Research — a # 235 million (US$ 338 million) publicly funded facility scheduled to open in 2019 that will be supported by six UK partner universities — is already dedicated to research on nuclear technologies.

Senate appropriators also granted a small increase for FAA's research, development, and engineering program, mostly for advanced materials research for commercial aviation.

Our research centers in North America, France and Asia concentrate on advances in bio-based products, new energies, water management, electronic solutions, lightweight materials and design, home efficiency and insulation.

As for that leverage: you can rest assured that DARPA (Defense Advanced Research Projects Agency) has long been funding research efforts to replace the rare - earth metals with other maResearch Projects Agency) has long been funding research efforts to replace the rare - earth metals with other maresearch efforts to replace the rare - earth metals with other materials.

Such risks, uncertainties and other factors include, without limitation: (1) the effect of economic conditions in the industries and markets in which United Technologies and Rockwell Collins operate in the U.S. and globally and any changes therein, including financial market conditions, fluctuations in commodity prices, interest rates and foreign currency exchange rates, levels of end market demand in construction and in both the commercial and defense segments of the aerospace industry, levels of air travel, financial condition of commercial airlines, the impact of weather conditions and natural disasters and the financial condition of our customers and suppliers; (2) challenges in the development, production, delivery, support, performance and realization of the anticipated benefits of advanced technologies and new products and services; (3) the scope, nature, impact or timing of acquisition and divestiture or restructuring activity, including the pending acquisition of Rockwell Collins, including among other things integration of acquired businesses into United Technologies» existing businesses and realization of synergies and opportunities for growth and innovation; (4) future timing and levels of indebtedness, including indebtedness expected to be incurred by United Technologies in connection with the pending Rockwell Collins acquisition, and capital spending and research and development spending, including in connection with the pending Rockwell Collins acquisition; (5) future availability of credit and factors that may affect such availability, including credit market conditions and our capital structure; (6) the timing and scope of future repurchases of United Technologies» common stock, which may be suspended at any time due to various factors, including market conditions and the level of other investing activities and uses of cash, including in connection with the proposed acquisition of Rockwell; (7) delays and disruption in delivery of materials and services from suppliers; (8) company and customer - directed cost reduction efforts and restructuring costs and savings and other consequences thereof; (9) new business and investment opportunities; (10) our ability to realize the intended benefits of organizational changes; (11) the anticipated benefits of diversification and balance of operations across product lines, regions and industries; (12) the outcome of legal proceedings, investigations and other contingencies; (13) pension plan assumptions and future contributions; (14) the impact of the negotiation of collective bargaining agreements and labor disputes; (15) the effect of changes in political conditions in the U.S. and other countries in which United Technologies and Rockwell Collins operate, including the effect of changes in U.S. trade policies or the U.K.'s pending withdrawal from the EU, on general market conditions, global trade policies and currency exchange rates in the near term and beyond; (16) the effect of changes in tax (including U.S. tax reform enacted on December 22, 2017, which is commonly referred to as the Tax Cuts and Jobs Act of 2017), environmental, regulatory (including among other things import / export) and other laws and regulations in the U.S. and other countries in which United Technologies and Rockwell Collins operate; (17) the ability of United Technologies and Rockwell Collins to receive the required regulatory approvals (and the risk that such approvals may result in the imposition of conditions that could adversely affect the combined company or the expected benefits of the merger) and to satisfy the other conditions to the closing of the pending acquisition on a timely basis or at all; (18) the occurrence of events that may give rise to a right of one or both of United Technologies or Rockwell Collins to terminate the merger agreement, including in circumstances that might require Rockwell Collins to pay a termination fee of $ 695 million to United Technologies or $ 50 million of expense reimbursement; (19) negative effects of the announcement or the completion of the merger on the market price of United Technologies» and / or Rockwell Collins» common stock and / or on their respective financial performance; (20) risks related to Rockwell Collins and United Technologies being restricted in their operation of their businesses while the merger agreement is in effect; (21) risks relating to the value of the United Technologies» shares to be issued in connection with the pending Rockwell acquisition, significant merger costs and / or unknown liabilities; (22) risks associated with third party contracts containing consent and / or other provisions that may be triggered by the Rockwell merger agreement; (23) risks associated with merger - related litigation or appraisal proceedings; and (24) the ability of United Technologies and Rockwell Collins, or the combined company, to retain and hire key personnel.

The first phase of Sêr Cymru committed up to # 50 million (US$ 66.2 million) to bring prestigious research chairs to Welsh universities and also to support national research networks in three «grand challenge» areas: life sciences and health; low carbon, energy, and environment; and advanced engineering and materials.

She joined NSF in June 2009 as a program director for the Small Business Innovation Research (SBIR) and Small Business Technology Transfer (STTR) programs, and also served as the cluster leader for the Nanotechnology, Advanced Materials and Manufacturing Cluster in SBIR / STTR programs.

Dr. Zhang co-authored the paper that describes this research, which was published last month in the journal Advanced Optical Materials, with a team of researchers from Masdar Institute and the Massachusetts Institute of Technology (MIT).

«This whole issue of emerging resistance of antibiotics is going to be a huge problem in the foreseeable future,» says James Hedrick, the IBM Research advanced organic materials scientist who led the study, published April 4 in Nature Chemistry (Scientific American is part of Nature Publishing Group).

The massive repository of genetic material is poised to advance research — just don't bother asking for your samples back

The university's WPI - Advanced Institute for Materials Research, renowned for its work on metallic glasses, polymers and nanodevices, has lost ¥ 1 billion (US$ 12.5 million) of equipment, and the cost is likely to increase when the damage is assessed in detail, says Yoshinori Yamamoto, the institute's director.

O'Connell said that Dell is also using packaging materials recycled from agricultural waste, such as wheat straw, in its efforts to accelerate innovation - goals echoed by the AAAS Research Competitiveness Program and advanced through its involvement in award programs like the Catalyst Award.

Working with robotics company Boston Dynamics, based in Waltham, Mass., the researchers began developing the material as part of the Chemical Robots program of the Defense Advanced Research Projects Agency (DARPA).

The research team included expertise from Argonne's Advanced Photon Source (APS), Center for Nanoscale Materials (CNM), Chemical Sciences and Engineering, and Materials Science, and partners from Northwestern University, the University of Connecticut - Storrs and the University of Wisconsin - Madison, who wanted to understand the driving force behind the rearrangements.

In contrast, JST, with an annual operating budget of approximately ¥ 118 billion (US$ 1.5 billion), sponsors research that is top down, aligning with the annual strategic objectives of MEXT, such as developing advanced materials, achieving a low - carbon society, and advancing immunology.

Authors are also expected to honor reasonable (consistent with community standards) requests for research materials / samples to the extent feasible, so that other research groups can extend and advance the results.

Jeffrey Grossman, an associate professor in MIT's Department of Materials Science and Engineering, recently received a grant from the Advanced Research Projects Agency - Energy (ARPA - E) to capture the sun's warmth and release it on demand (ClimateWire, Sept. 30).

«The research performed at NSLS - II will probe the fundamental structure of novel materials and help drive the development of low - cost, low - carbon energy technologies, spark advances in environmental science, and spur medical breakthroughs,» Moniz said.

Researchers at Tohoku University's Advanced Institute for Materials Research (AIMR) have carried out a collaborative study aimed at precisely controlling phase transformations with high spatial precision, which represents a significant step forward in realizing new functionalities in confined dimensions.

The work was supported by the Air Force Office of Scientific Research, the National Research Foundation of Korea and the Cornell Center for Materials Research funded by the National Science Foundation, as well as the Samsung Advanced Institute for Technology.

A research team from the Korea Advanced Institute of Science and Technology (KAIST), headed by Professor Keon Jae Lee of the Department of Materials Science and Engineering at KAIST and Professor Boyoung Joung, M.D. of the Division of Cardiology at Severance Hospital of Yonsei University, has developed a self - powered artificial cardiac pacemaker that is operated semi-permanently by a flexible piezoelectric nanogenerator.

The research is reported January 26 in the journal Advanced Electronic Materials.

Advances in imaging technology are helping scientists find new details like this even in objects as familiar as a chicken eggshell, says Lara Estroff, a materials scientist at Cornell University who wasn't part of the research.

Among its recommendations is a call for a new Advanced Research Projects Agency - Education, or «ARPA - ED» that would promote new education technologies and digital learning materials and the creation of an Office of STEM Education within the Department of Education.

The research team, led by Associate Professor Yang Hyunsoo of the Department of Electrical and Computer Engineering at the NUS Faculty of Engineering, published their findings in the journal Advanced Materials on 6 July 2016.

In a study published April 2 in the journal Advanced Materials, a University at Buffalo - led research team describes how kirigami has inspired its efforts to build malleable electronic circuits.

Advanced Research Division, Materials Research Laboratory, Panasonic Corporation, 1006 Kadoma, Kadoma City, Osaka 571-8501, Japan.

In a paper published in Advanced Functional Materials, the research team reports on the new material's key properties, many of which can be finely tuned, and on the results of using the material in preclinical models of wound healing.

The research, which was funded by NCCR Robotics, is featured in Advanced Materials.

The research team verified that the electronic structure of the nickelate resembles that of cuprate materials by taking X-ray absorption spectroscopy measurements at the Advanced Photon Source, a DOE Office of Science User Facility, and by performing density functional theory calculations.

They would «support cross-disciplinary research and development focused on the barriers to transforming energy technologies into commercially deployable materials, devices, and systems [and] advance highly promising areas of energy science and technology from their early stages of research to the point that the risk level will be low enough for industry to deploy them into the marketplace.»

The research project was undertaken in cooperation with BASF and the results have been published in the journal Advanced Materials.

The new funding — part of the chancellor's autumn budget statement, a sort of half - year report on the U.K. economy — will be spent on big data and energy efficient computing, synthetic biology, energy storage, and advance materials, according to RCUK, the body that represents Britain's seven research councils.

Andrews says the team's research marks an important turning point in the field because it represents a significant advance toward solving the cathode problem while also highlighting the inherent advantages of using much more imaginative, metastable materials like this new form of vanadium pentoxide.

«It's a very, very significant event,» says electrical engineer Carlton Osburn of North Carolina State University, member of a research team that studied hafnium and other advanced transistor materials.

More speculative desalinization research aims to create «superflux» membranes that allow water to pass through more easily, says Mark Shannon, director of the Center of Advanced Materials for the Purification of Water with Systems (CAMPWS) at the University of Illinois at Urbana — Champaign.

For this research, the team used the Center for Nanoscale Materials as well as beamline 12 - ID - C of the Advanced Photon Source, both DOE Office of Science User Facilities.

The research, in collaboration with Macquarie University and University of Melbourne, has been published online in the journal Advanced Optical Materials.

The research was published on March 24 in Advanced Materials.

«By bombarding the material with protons at low energy, we simultaneously increased the material's current - carrying capacity and critical temperature — the first time that this has been possible in an iron - based superconductor,» said physicist Qiang Li, head of the Advanced Energy Materials Group at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory, who directed the research.

A research team of Japan's National Institute for Materials Science (NIMS), RIKEN, Kobe Steel and JEOL RESONANCE successfully developed the NMR system equipped with world's highest magnetic field, 1,020 MHz, supported by the JST - SENTAN program «Development of Systems and Technology for Advanced Measurement and Analysis.»

The details of this experimental research are available in the current issue of Advanced Materials.

In this role he is responsible for driving innovation across the entire portfolio of the advanced materials division.Sreeram joined Dow in June 2006 as the vice president of core research and development, where he initiated innovation in the application of advanced materials to a variety of product areas.

A. N. Sreeram is vice president of research and development for the advanced materials division of The Dow Chemical Company.

Advances in materials science, distributed algorithms and manufacturing processes are bringing all of these things closer to reality every day, says a review published today in the journal Science by Nikolaus Correll, assistant professor of computer science, and research assistant Michael McEvoy, both of the University of Colorado Boulder.

The research was published today in the journal Advanced Materials Technologies.

A. N. Sreeram, Vice President, Research and Development, Advanced Materials Division, The Dow Chemical Company