Skip to main content

Home/ OARS funding Engineering/ Group items tagged technology

Rss Feed Group items tagged

MiamiOH OARS

Grants.gov - Find Grant Opportunities - Opportunity Synopsis - 0 views

  •  
    The objective of this activity is to competitively solicit projects in novel technologies under the Crosscutting Research Program Area to support Department of Energy Strategic Goals. The United States Department of Energy National Energy Technology Laboratory is seeking innovative research and development of novel sensor and control systems for use in advanced power generation systems. New sensor and control technology will contribute the goals of high efficiency, near zero emission, and effective carbon capture for the next generation power generation technologies. These technologies include advanced combustion, gasification, turbines, fuel cells, gas cleaning and separation technologies, and carbon dioxide separation and capture technologies. The inclusion of transformational power generation and emission control technology will enable high process efficiency and integration to achieve performance goals at reasonable cost. Integration o f new technology will introduce unprecedented levels of complexity and process conditions that must be address by improved sensor and control technology. To manage complexity and achieve performance goals, advances in the capability and architecture of instrumentation, sensors, and process controls are vital in assuring integrated unit operations, predictive on-line maintenance, and continuous life cycle monitoring and real time process optimization. Innovations in these areas are being supported by the National Energy Technology Laboratorys Crosscutting Research Program which aims at bridging the gap between the basic sciences and applied research as it relates to Advanced Power Systems that utilize domestic resources. Long range transitional type research is needed to support the identification and growth of novel concepts that will to scientific breakthroughs and early adoption of innovative concepts into applications for power generation.
MiamiOH OARS

Cyberlearning for Work at the Human-Technology Frontier - 0 views

  •  
    The purpose of the Cyberlearning for Work at the Human-Technology Frontier program is to fund exploratory and synergistic research in learning technologies to prepare learners to excel in work at the human-technology frontier. This program responds to the pressing societal need to educate and re-educate learners of all ages (students, teachers and workers) in science, technology, engineering, and mathematics (STEM) content areas to ultimately function in highly technological environments, including in collaboration with intelligent systems. Innovative technologies can reshape learning processes, which in turn can influence new technology design. Learning technology research in this program should be informed by the convergence of multiple disciplines: education and learning sciences, computer and information science and engineering, and cognitive, behavioral and social sciences. This program funds learning technology research in STEM and other foundational areas that enable STEM learning.
MiamiOH OARS

International Technology Alliance - 0 views

  •  
    A landmark collaboration known as the International Technology Alliance (ITA) in Network and Information Sciences was initiated by the US Army Research Laboratory (ARL) and the UK Ministry of Defence (MoD) in 2006. Awards were made to a Consortium of industrial and academic organizations from the United States and the United Kingdom that along with the US ARL and the UK Dstl formed an international research Alliance that is jointly conducting collaborative research focused on enhancing coalition operations. The key factors contributing to the success of this unique collaborative venture are: joint technical leadership and management by the Alliance (academia, industry, government in both countries); an arrangement fostering an open collaborative research environment to support deep collaboration among researchers; multi-disciplinary research approach applied to key coalition technical challenges; and an innovative transition model that is facilitating the rapid transition of research results to both commercial and military domains.The purpose of this US ARL and UK Defence Science and Technology Laboratory (Dstl) ITA Program Announcement (PA) under W911NF-15-R-0003 is to solicit offers that will help to fulfill the research and development goals of the US Department of Army and UK Ministry of Defence. This PA announces a new and innovative opportunity for cooperation between the US and the UK in the area of Distributed Analytics and Information Science (DAIS). The DAIS ITA Program is comprised of two components: (1) the Basic Research Component and (2) the Technology Transition Component. The Basic Research Component will provide for fundamental research, the results of which will be in the public domain, while the Technology Transition Component will provide for the application of the fundamental research results to military, security and commercial applications to foster the best technologies for future defense and security needs. The Catalog of Federal Domestic As
MiamiOH OARS

Future of Work at the Human-Technology Frontier: Advancing Cognitive and Physical Capab... - 0 views

  •  
    The landscape of jobs and work is changing at unprecedented speed, driven by the development of new technologies that have moved from the factory floor to an expanding array of knowledge and service occupations. These changes promise benefits to the Nation in the creation of new industries and occupations, increased productivity, opportunity for innovation, and sustained global leadership. But there are risks as well. Technological advances scale back the need for some workers, and in some cases, eliminate job sectors, with consequences to displaced workers who must adapt to emerging new technologies and the changing economy through retraining and reskilling. The Future of Work at the Human-Technology Frontier (FW-HTF) is one of 10 new and far-sighted Big Ideas for Future Investments announced by NSF in 2016. NSF aims to respond to the challenges and opportunities of the changing landscape of jobs and work by supporting convergent research to: understand and develop the human-technology partnership; design new technologies to augment human performance; illuminate the emerging socio-technological landscape and understand the risks and benefits of new technologies; and foster lifelong and pervasive learning with technology. In order to be nimble and responsive to new opportunities and challenges as they are recognized, focus areas for the FW-HTF solicitation, the centerpiece of the FW-HTF Big Idea, may change from year to year.
MiamiOH OARS

FedConnect: Opportunity Summary - 0 views

  •  
    The mission of DOE's Fossil Energy R&D Program is to ensure the nation can continue to rely on traditional resources for clean, secure and affordable energy while enhancing environmental protection. The Carbon Capture program focuses on developing technologies to control emissions from either post-combustion units (e.g., pulverized coal) or pre-combustion (e.g., Integrated Gasification Combined Cycle, or IGCC). First Generation technologies (i.e. those that are currently being demonstrated or that are commercially available) exist, and Second Generation Technologies (i.e., those that include technology components currently in R&D and are expected to be ready for demonstration in the 2020-2025 timeframe) have shown potential for improvement towards an economic goal for cost of capture at less than $40/tonne, but are still cost prohibitive for broad deployment to the existing coal fleet. For Fiscal Year (FY) 2018, the Carbon Capture Program will solicit applications under this FOA to develop technologies in the area of pre-combustion carbon capture. Approaches that look at either hydrogen (H2) separation or carbon dioxide (CO2) separation will be accepted. The carbon capture technologies developed through this FOA will have direct application to coal gasification processes where coal derived synthesis gas or hydrogen are produced. Additionally, because gasification technology is often used to produce industrial chemicals, the technologies developed through this FOA will also be directly applicable to industrial gasifiers. Finally, as these technologies are successfully developed, they can represent an export opportunity to other countries that have a larger installed base of gasifiers than the U.S.
MiamiOH OARS

Transformational Pre-combustion Carbon Capture Technologies - 0 views

  •  
    The mission of DOE's Fossil Energy R&D Program is to ensure the nation can continue to rely on traditional resources for clean, secure and affordable energy while enhancing environmental protection. The Carbon Capture program focuses on developing technologies to control emissions from either post-combustion units (e.g., pulverized coal) or pre-combustion (e.g., Integrated Gasification Combined Cycle, or IGCC). First Generation technologies (i.e. those that are currently being demonstrated or that are commercially available) exist, and Second Generation Technologies (i.e., those that include technology components currently in R&D and are expected to be ready for demonstration in the 2020-2025 timeframe) have shown potential for improvement towards an economic goal for cost of capture at less than $40/tonne, but are still cost prohibitive for broad deployment to the existing coal fleet. For Fiscal Year (FY) 2018, the Carbon Capture Program will solicit applications under this FOA to develop technologies in the area of pre-combustion carbon capture. Approaches that look at either hydrogen (H2) separation or carbon dioxide (CO2) separation will be accepted. The carbon capture technologies developed through this FOA will have direct application to coal gasification processes where coal derived synthesis gas or hydrogen are produced. Additionally, because gasification technology is often used to produce industrial chemicals, the technologies developed through this FOA will also be directly applicable to industrial gasifiers.
MiamiOH OARS

Future of Work at the Human-Technology Frontier: Core Research - 0 views

  •  
    The specific objectives of the Future of Work at the Human-Technology Frontier program are to (1) facilitate convergent research that employs the joint perspectives, methods, and knowledge of computer science, design, engineering, learning sciences, research on education and workforce training, and social, behavioral, and economic sciences; (2) encourage the development of a research community dedicated to designing intelligent technologies and work organization and modes inspired by their positive impact on individual workers, the work at hand, the way people learn and adapt to technological change, creative and supportive workplaces (including remote locations, homes, classrooms, or virtual spaces), and benefits for social, economic, educational, and environmental systems at different scales; (3) promote deeper basic understanding of the interdependent human-technology partnership to advance societal needs by advancing design of intelligent work technologies that operate in harmony with human workers, including consideration of how adults learn the new skills needed to interact with these technologies in the workplace, and by enabling broad workforce participation, including improving accessibility for those challenged by physical or cognitive impairment; and (4) understand, anticipate, and explore ways of mitigating potential risks arising from future work at the human-technology frontier. Ultimately, this research will advance understanding of how technology and people interact, distribute tasks, cooperate, and complement each other in different specific work contexts of significant societal importance.
MiamiOH OARS

Stimulating Peripheral Activity to Relieve Conditions (SPARC): Pre-clinical Development... - 0 views

  •  
    This FOA relates to one of the initiatives of the SPARC (Stimulating Peripheral Activity to Relieve Conditions) Common Fund program titled: Use of Existing Market-Approved Technology for New Market Indications. By establishing effective public-private partnerships, this SPARC initiative allows supported investigators to have access to existing neuromodulation technology to explore new indications. A number of device manufacturers have entered into partnership agreements with the NIH to make their neuromodulation technology, consisting of implantable devices with recording and/or stimulation capabilities, available to SPARC's supported clinical investigators (see Device Portal for a list of companies and available technologies). The specific goal of this FOA is to promote the pre-clinical development of these technologies, in support of a new market indication, towards enabling an Investigational Device Exemption (IDE) submission for a future pilot clinical study. Awarded projects of this FOA that fully reach their pre-clinical testing milestones will be eligible for further support, subject to a subsequent FOA, to conduct a pilot clinical study. The expectation is that these pilot clinical studies will provide the initial proof-of-principle demonstrations in humans that will motivate the additional studies needed in pursuing FDA approval as a labeled indication.
  •  
    This FOA relates to one of the initiatives of the SPARC (Stimulating Peripheral Activity to Relieve Conditions) Common Fund program titled: Use of Existing Market-Approved Technology for New Market Indications. By establishing effective public-private partnerships, this SPARC initiative allows supported investigators to have access to existing neuromodulation technology to explore new indications. A number of device manufacturers have entered into partnership agreements with the NIH to make their neuromodulation technology, consisting of implantable devices with recording and/or stimulation capabilities, available to SPARC's supported clinical investigators (see Device Portal for a list of companies and available technologies). The specific goal of this FOA is to promote the pre-clinical development of these technologies, in support of a new market indication, towards enabling an Investigational Device Exemption (IDE) submission for a future pilot clinical study. Awarded projects of this FOA that fully reach their pre-clinical testing milestones will be eligible for further support, subject to a subsequent FOA, to conduct a pilot clinical study. The expectation is that these pilot clinical studies will provide the initial proof-of-principle demonstrations in humans that will motivate the additional studies needed in pursuing FDA approval as a labeled indication.
MiamiOH OARS

View Opportunity | GRANTS.GOV - 0 views

  •  
    Overall electricity access rate in Zambia currently stands at 31%. The situation is more challenging in rural areas where the access to electricity is less than 5%. This low access impedes Zambia's economic development. Increased access to electricity can increase economic growth and spur investment and trade, thereby reducing poverty. The national electricity grid will not be extended soon to most of the areas that currently lack electricity. Therefore, the increased utilization of other technologies, such as solar, offers an immediate and more realistic solution to the electricity access challenge. To support the increased utilization of solar technologies, there is a need to develop a cadre of trained solar professionals (installation and maintenance) throughout Zambia who can offer their services to both institutional and residential users. Furthermore, there are various projects to install solar technologies underway in support of different sector goals, such as health, education, water and sanitation. Supporting the development of expanded solar technology human capacity will ensure that solar technologies are installed, operating correctly, and well maintained. USAID/Zambia seeks information to help inform an intervention that is aimed at supporting a Zambia-based organization to provide regular training in solar technology installation and maintenance. The goal is to increase the use of solar technologies in Zambia via the development of these trained solar professionals.
MiamiOH OARS

Ideas Lab: Cross-cutting Initiative in CubeSat Innovations - 0 views

  •  
    CubeSat constellations and swarms have been identified as a new paradigm for space-based measurements to address high-priority science questions in multiple disciplines. However, the full potential of CubeSat constellations and swarms for scientific studies has not yet been realized because of: i) the limitations of some of the existing key CubeSat technology, ii) knowledge gaps in the design and optimization of CubeSat technology for swarms and constellations, and iii) the increasing cost of more sophisticated CubeSat technology. The technology challenges include high bandwidth communications in CubeSat-to-CubeSat and CubeSat-to-ground scenarios, circuits and sensors miniaturization, on-board signal processing, and power generation. The vision of a satellite mission consisting of 10-100 CubeSats will require focused investment and development in a myriad of CubeSat-related technologies to build a cost-effective constellation or swarm of CubeSats. This will require transformative approaches for designing and building CubeSat subsystems and sensors, and innovative production approaches that will reduce the cost of implementing large-scale constellation missions.Spectrum allocations for data transmission and possible electromagnetic interference between or within constellations of CubeSats are issues that also will need to be considered. This solicitation describes an Ideas Lab focused onCubeSat Innovations to push the envelope of space-based research capabilities by simultaneously developing enabling technologies in several domains, including propulsion systems, sensor design, electronic circuits, antennas, satellite-to-ground and satellite-to-satellite communications and wireless networking, and power management. The vision of this Ideas Lab is to support research and engineering technology development efforts that will lead to new science missions in geospace and atmospheric sciences using self-organizing CubeSat constellations/swarms.
MiamiOH OARS

nsf.gov - Funding - Small Business Innovation Research Program Phase I Solicitation FY-... - 0 views

  •  
    The Small Business Innovation Research (SBIR) Program stimulates technological innovation in the private sector by strengthening the role of small business concerns in meeting Federal research and development needs, increasing the commercial application of federally supported research results, and fostering and encouraging participation by socially and economically disadvantaged and women-owned small businesses. The topics, listed below, are detailed on the SBIR/STTR topics homepage: Educational Technologies and Applications (EA) Information and Communication Technologies (IC) Semiconductors (S) and Photonic (PH) Devices and Materials Electronic Hardware, Robotics and Wireless Technologies (EW) Advanced Manufacturing and Nanotechnology (MN) Advanced Materials and Instrumentation (MI) Chemical and Environmental Technologies (CT) Biological Technologies (BT) Smart Health (SH) and Biomedical (BM) Technologies
MiamiOH OARS

BRAIN Initiative Cell Census Network (BICCN) Scalable Technologies and Tools for Brain ... - 0 views

  •  
    This Funding Opportunity Announcement (FOA) intends to accelerate the integration and use of scalable technologies and tools to enhance and reinvigorate brain cell census research, including the development of technology platforms and/or resources that will enable a swift and comprehensive survey of brain cell types and circuits. Of particular interest are those that will (a) improve technology and resource platforms to remove limitations and bottlenecks in the current pipeline of brain cell census data generation; (b) integrate experimental and computational methods to enhance capabilities of cell census data generation and analysis and to reduce barriers to hypothesis-driven research; (c) generate a substantial amount of spatiotemporal cell census data and/or resources to demonstrate the utility of the improved technology and resource platforms; and (d) conduct comparative studies by using proper criteria to evaluate and benchmark quality of biospecimen, performance of cell census tools/technologies, and effectiveness of computational approaches. The projects funded under this FOA will align with the overarching goals of the BRAIN Initiative Cell Census Network (BICCN) and are expected to generate a substantial amount of cell census data using the proposed technologies or via collaboration with the BICCN.
MiamiOH OARS

Zonal Isolation for Manmade Geothermal Reservoirs - 0 views

  •  
    The U.S. Department of Energy's Geothermal Technology Office(GTO) Zonal Isolation for Manmade Geothermal Reservoirs funding opportunity announcement (FOA) supports early-stage development of enhanced geothermal systems (EGS) tools and technologies, and will seek to improve the performance and economics of EGS systems by funding research in zonal isolation. Zonal isolation technologies can radically improve the performance and economics of EGS, or manmade geothermal reservoirs. These technologies provide the ability to target specific zones for stimulation activities, which can enable the command and control of fracture location and the economy of resources. In turn, this reduces development costs and operational risks associated with EGS development and promotes more power from fewer wellbores. Under this funding opportunity, GTO is interested in two topic areas: Topic 1 - Invention and Innovative Design of Zonal Isolation Technologies and Techniques for EGS Stimulation; and, Topic 2 - Adaption of Existing Zonal Isolation Technologies for EGS Stimulation. The projects selected from this FOA will aim to develop reliable zonal isolation tools and technologies that: * Present low risk to wellbore integrity or the conductivity of fractures; * Can operate at high-temperatures in corrosive, hard rock environments for extended periods of time; and * Withstand large pressure differentials.
MiamiOH OARS

Educational Materials for Professional Organizations Working on Efficiency and Renewabl... - 0 views

  •  
    The Educational Materials for Professional Organizations Working on Efficiency and Renewable Energy Developments (EMPOWERED) funding program is a collaborative effort across EERE's Solar Energy Technologies Office (SETO), Vehicle Technologies Office (VTO), and Building Technologies Office (BTO), to provide professionals with educational materials and training resources in fields newly interacting with distributed energy resources (DER). In this program, DER includes distributed solar, like on homes and businesses, as well as efficient building technologies and sustainable transportation technologies, such as electric vehicles. The goal of this program is to create resources that will help those on the front lines of DER adoption-like first responders, safety officials, and building managers and owners keep up with these rapidly emerging and advancing technologies. These professionals are at the forefront of America's energy transition and play a role in easing adoption, ensuring safety, and reducing installation costs. Because of this, the participating EERE offices see these professionals as key to enabling understanding and acceptance of new energy technologies.
MiamiOH OARS

Semiconductor Synthetic Biology for Information Processing and Storage Technologies | N... - 0 views

  •  
    New information technologies can be envisioned that are based on biological principles and that use biomaterials in the fabrication of devices and components; it is anticipated that these information technologies could enable stored data to be retained for more than 100 years and storage capacity to be 1,000 times greater than current capabilities. These could also facilitate compact computers that will operate with substantially lower power than today's computers. Research in support of these goals can have a significant impact on advanced information processing and storage technologies. This focused solicitation seeks high-risk/high-return interdisciplinary research on novel concepts and enabling technologies that will address the scientific issues and technological challenges associated with the underpinnings of synthetic biology integrated with semiconductor technology. This research will foster interactions among various disciplines including biology, engineering, physics, chemistry, materials science, computer science, and information science that will enable heretofore-unanticipated breakthroughs as well as meet educational goals.
MiamiOH OARS

BRAIN Initiative: Optimization of Transformative Technologies for Large Scale Recording... - 0 views

  •  
    Although invention and proof-of-concept testing of new technologies are a key component of the BRAIN Initiative, to achieve their potential these technologies must also be optimized through feedback from end-users in the context of the intended experimental use. This seeks applications for the optimization of existing and emerging technologies and approaches that have potential to address major challenges associated with recording and manipulating neural activity, at or near cellular resolution, at multiple spatial and temporal scales, in any region and throughout the entire depth of the brain. This FOA is intended for the iterative refinement of emergent technologies and approaches that have already demonstrated their transformative potential through initial proof-of-concept testing, and are appropriate for accelerated development of hardware and software while scaling manufacturing techniques towards sustainable, broad dissemination and user-friendly incorporation into regular neuroscience practice. Proposed technologies should be compatible with experiments in behaving animals, and should include advancements that enable or reduce major barriers to hypothesis-driven experiments. Technologies may engage diverse types of signaling beyond neuronal electrical activity for large-scale analysis, and may utilize any modality such as optical, electrical, magnetic, acoustic or genetic recording/manipulation. Applications that seek to integrate multiple approaches are encouraged. Applications are expected to integrate appropriate domains of expertise, including where appropriate biological, chemical and physical sciences, engineering, computational modeling and statistical analysis.
MiamiOH OARS

RFA-NS-18-019: BRAIN Initiative: Optimization of Transformative Technologies for Large ... - 0 views

  •  
    Understanding the dynamic activity of neural circuits is central to the NIH BRAIN Initiative. Although invention and proof-of-concept testing of new technologies are a key component of the BRAIN Initiative, to achieve their potential these technologies must also be optimized through feedback from end-users in the context of the intended experimental use. This FOA seeks applications for the optimization of existing and emerging technologies and approaches that have potential to address major challenges associated with recording and manipulating neural activity, at or near cellular resolution, at multiple spatial and temporal scales, in any region and throughout the entire depth of the brain. This FOA is intended for the iterative refinement of emergent technologies and approaches that have already demonstrated their transformative potential through initial proof-of-concept testing, and are appropriate for accelerated development of hardware and software while scaling manufacturing techniques towards sustainable, broad dissemination and user-friendly incorporation into regular neuroscience practice. Proposed technologies should be compatible with experiments in behaving animals, and should include advancements that enable or reduce major barriers to hypothesis-driven experiments. Technologies may engage diverse types of signaling beyond neuronal electrical activity for large-scale analysis, and may utilize any modality such as optical, electrical, magnetic, acoustic or genetic recording/manipulation. Applications that seek to integrate multiple approaches are encouraged. Applications are expected to integrate appropriate domains of expertise, including where appropriate biological, chemical and physical sciences, engineering, computational modeling and statistical analysis. Also listed under R01
MiamiOH OARS

Innovative Analytics Technologies - 0 views

  •  
    On the occasion of its 350th anniversary, Merck KGaA, Darmstadt, Germany will fund innovative projects in applied biophysical & analytical research. Projects will be based on the following challenges: · Challenge 1: Analytical technologies for antibodies and antibody-drug conjugates, as well as technologies to determine drug target engagement, or the level of protein or nucleic acid or metabolic biomarkers. · Challenge 2: Analytical technologies for display materials or semiconductors (Liquid Crystals, OLED Materials, Quantum Materials, Reactive Mesogens, Photoresist Materials). E.g. Spectroscopic Methods, MS Hyphenation, Capillary Chromatography and Comprehensive Separation Technologies; Surface analytics for displays (non- or destructive), Sample preparation techniques for ultra-sensitive investigations · Challenge 3: Analytical technologies for the characterization of polymers, chemical imaging, bioanalytical methods or new methods in molecular biology. Technologies of interest for example are: field flow floractionation (FFF), dynamic light scattering (DLS), chemical imaging, new chromatographic techniques, spectroscopic and spectrometric methods, electron paramagnetic resonance (EPR), microwave analytics
MiamiOH OARS

Solar Energy Technologies Office (SETO) Funding Opportunity Announcement (FOA) FY 2018 - 0 views

  •  
    The FOA will support early-stage research that spans the Solar Energy Technologies Office (SETO) portfolio, seeking to advance both solar photovoltaic (PV) and concentrating solar thermal power (CSP) technologies and to facilitate the swift integration of those technologies into the nation's electricity grid. It also is designed to support efforts that prepare the workforce for the solar industry's future needs. The FOA is organized into the following high level Topic Areas: Topic 1: Advanced Solar Systems Integration Technologies describes SETO research priorities in the seamless integration of high penetrations of solar energy onto the nation's electricity grid. Topic 2: Concentrating Solar Thermal Power Research and Development describes SETO research priorities that support solar technologies that focus sunlight to generate and store high-temperature heat for electricity generation and other end uses. Topic 3: Photovoltaic Research and Development describes SETO research priorities that support the further development of photovoltaic technologies that improve system reliability, annual energy yield, demonstrate performance of novel PV devices and develop new PV materials. Topic 4: Improving and Expanding the Solar Industry through Workforce Initiatives describes SETO research priorities that support solar workforce development.
MiamiOH OARS

Solid Oxide Fuel Cells Core Technology Research - 0 views

  •  
    This Funding Opportunity Announcement (FOA) is soliciting applications to develop Solid Oxide Fuel Cell Technology in order to support fuel cells system manufacturers in addressing issues related to cost and reliability of fuel cells systems. Applications are sought in two areas of interest (AOI) that include AOI 1 - Solid Oxide Fuel Cells (SOFC) Core Technology Research and AOI 2 - Core Technology Research and Development (R&D) in Support of Near-Term SOFC Power Systems Prototype Tests. AOI 1 is supporting transformational technologies that are focused on early-stage laboratory-scale R&D. Successful projects will result in validation of concepts at a laboratory-scale. Collaboration with a fuel cell system manufacturer is encouraged. AOI 2 will seek projects that address reliability issues facing 2nd Generation SOFC power systems in an operational environment. This AOI will require a team approach where the participation of at least one fuel cell system manufacturer as a prime or a sub-recipient in the team is required. Teams should be able to take the technology developed during the award to the point that it can be validated in an operational system. Fuel cell technology other than SOFC will be considered non-responsive to both AOIs.
1 - 20 of 918 Next › Last »
Showing 20 items per page