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Advanced Metal-Hydrides-Based Thermal Battery
Advanced Research Projects Agency-Energy project sheet summarizing general information about the High Energy Advanced Thermal Storage (HEATS) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses an advanced metal-hydrides-based thermal battery as part of the "A New Generation of High Density Thermal Battery Based on Advanced Metal Hydrides" project.
Date:
May 25, 2012
Creator:
University of Utah
Object Type:
Text
System:
The UNT Digital Library
Advanced Thermal Energy Storage
Advanced Research Projects Agency-Energy project sheet summarizing general information about the High Energy Advanced Thermal Storage (HEATS) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses advanced thermal energy storage as part of the "Novel Tuning of Critical Fluctuations for Advanced Thermal Energy Storage" project.
Date:
May 25, 2012
Creator:
NAVITASMAX
Object Type:
Text
System:
The UNT Digital Library
Advanced Thermo-Adsorptive Battery
Advanced Research Projects Agency-Energy project sheet summarizing general information about the High Energy Advanced Thermal Storage (HEATS) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses an advanced thermo-adsorptive battery as part of the "New Generation of the Advanced Thermo-Adsorptive Battery Climate Control System" project.
Date:
May 25, 2012
Creator:
Massachusetts Institute of Technology
Object Type:
Text
System:
The UNT Digital Library
Alternatives to Critical Materials in Magnets
Advanced Research Projects Agency-Energy project sheet summarizing general information about the 14 projects that are a part of the Rare Earth Alternatives in Critical Technologies (REACT) program including project goals, innovation needs, and potential impacts.
Date:
May 25, 2012
Creator:
United States. Advanced Research Projects Agency-Energy.
Object Type:
Text
System:
The UNT Digital Library
Better Enzymes for Carbon Capture
Advanced Research Projects Agency-Energy project sheet summarizing general information about the Innovative Materials and Processes for Advanced Carbon Capture Technologies (IMPACCT) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses the development of carbonic anhydrases enzymes as part of the "Low-Cost Biological Catalyst to Enable Efficient Carbon Dioxide Capture" project.
Date:
May 25, 2012
Creator:
Codexis, Inc.
Object Type:
Text
System:
The UNT Digital Library
Carbon-Based Magnets
Advanced Research Projects Agency-Energy project sheet summarizing general information about the Rare Earth Alternatives in Critical Technologies (REACT) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses a new type of magnet for power generators and motors as part of the "Discovery & Design of Novel Permanent Magnets using Non-strategic Elements having Secure Supply Chains" project.
Date:
May 25, 2012
Creator:
Virginia Commonwealth University
Object Type:
Text
System:
The UNT Digital Library
Carbon Capture Technology
Advanced Research Projects Agency-Energy project sheet summarizing general information about the 15 projects that are a part of the Innovative Materials and Processes for Advanced Carbon Capture Technologies (IMPACCT) program including project goals, innovation needs, and potential impacts.
Date:
May 25, 2012
Creator:
United States. Advanced Research Projects Agency-Energy.
Object Type:
Text
System:
The UNT Digital Library
Cerium-Based Magnets
Advanced Research Projects Agency-Energy project sheet summarizing general information about the Rare Earth Alternatives in Critical Technologies (REACT) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses magnets made of cerium as part of the "Novel High Energy Permanent Magnet Without Critical Elements" project.
Date:
May 25, 2012
Creator:
Ames Laboratory
Object Type:
Text
System:
The UNT Digital Library
Chemically Accelerated Carbon Mineralization
Advanced Research Projects Agency-Energy project sheet summarizing general information about the Innovative Materials and Processes for Advanced Carbon Capture Technologies (IMPACCT) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses turning carbon dioxide exhaust into a solid as part of the "Chemical and Biological Catalytic Enhancement of Weathering of Silicate Minerals as Novel Carbon Capture and Storage" project.
Date:
May 25, 2012
Creator:
Columbia University
Object Type:
Text
System:
The UNT Digital Library
CO2 Capture and Regeneration at Low Temperatures
Advanced Research Projects Agency-Energy project sheet summarizing general information about the Innovative Materials and Processes for Advanced Carbon Capture Technologies (IMPACCT) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses the development of non-water-based carbon dioxide solvents as part of the"Novel Non-Aqueous CO2 Solvents and Capture Process with Substantially Reduced Energy Penalties" project.
Date:
May 25, 2012
Creator:
Research Triangle Institute
Object Type:
Text
System:
The UNT Digital Library
CO2 Capture Using Electrical Energy
Advanced Research Projects Agency-Energy project sheet summarizing general information about the Innovative Materials and Processes for Advanced Carbon Capture Technologies (IMPACCT) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses the development of a process to separate and store carbon dioxide as part of the"Electrochemically Mediated Separation for Carbon Capture and Mitigation" project.
Date:
May 25, 2012
Creator:
Massachusetts Institute of Technology
Object Type:
Text
System:
The UNT Digital Library
CO2 Capture with Liquid-to-Solid Absorbents
Advanced Research Projects Agency-Energy project sheet summarizing general information about the Innovative Materials and Processes for Advanced Carbon Capture Technologies (IMPACCT) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses the development of liquid absorbents as part of the "CO2 Capture Process Using Phase-Changing Absorbents" project.
Date:
May 25, 2012
Creator:
General Electric Global Research
Object Type:
Text
System:
The UNT Digital Library
Composite Membranes for CO2 Capture
Advanced Research Projects Agency-Energy project sheet summarizing general information about the Innovative Materials and Processes for Advanced Carbon Capture Technologies (IMPACCT) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses the development of composite filter membranes as part of the "High Performance Metal Organic Frameworks/Polymer Composite Membranes for Carbon Dioxide Capture" project.
Date:
May 25, 2012
Creator:
Georgia Tech Research Corporation
Object Type:
Text
System:
The UNT Digital Library
Conversion Tower for Dispatchable Solar Power
Advanced Research Projects Agency-Energy project sheet summarizing general information about the High Energy Advanced Thermal Storage (HEATS) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses new system architecture for a solar-electric conversion tower as part of the "High-Efficiency Solar-Electric Conversion Power Tower" project.
Date:
May 25, 2012
Creator:
Abengoa Solar, Inc.
Object Type:
Text
System:
The UNT Digital Library
Cryogenic Carbon Capture
Advanced Research Projects Agency-Energy project sheet summarizing general information about the Innovative Materials and Processes for Advanced Carbon Capture Technologies (IMPACCT) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses a process for carbon capture through desublimation as part of the "Cryogenic Carbon Capture" project.
Date:
May 25, 2012
Creator:
Sustainable Energy Solutions
Object Type:
Text
System:
The UNT Digital Library
Design of RF Feed System for Standing-Wave Accelerator Structures
We are investigating a standing wave accelerator structure that uses a rf feed to each individual cell. This approach minimizes rf power flow and electromagnetic energy absorbed by an rf breakdown. The objective of this work is a robust high-gradient (above 100 MV/m) X-band accelerator structure.
Date:
May 25, 2012
Creator:
Neilson, J.; Tantawi, S. & Dolgashev, V.
Object Type:
Article
System:
The UNT Digital Library
Efficient Heat Storage Materials
Advanced Research Projects Agency-Energy project sheet summarizing general information about the High Energy Advanced Thermal Storage (HEATS) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses the development of new materials to store heat in solar and nuclear power plants as part of the "Metallic Composites Phase-Change Materials for High-Temperature Thermal Energy Storage" project.
Date:
May 25, 2012
Creator:
Massachusetts Institute of Technology
Object Type:
Text
System:
The UNT Digital Library
Efficient, High-Torque Electric Vehicle Motor
Advanced Research Projects Agency-Energy project sheet summarizing general information about the Rare Earth Alternatives in Critical Technologies (REACT) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses a new type of electric motor as part of the "Advanced Electric Vehicle Motors with Low or No Rare Earth Content" project.
Date:
May 25, 2012
Creator:
QM Power, Inc.
Object Type:
Text
System:
The UNT Digital Library
Efficient Phase-Change Materials
Advanced Research Projects Agency-Energy project sheet summarizing general information about the High Energy Advanced Thermal Storage (HEATS) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses the development of cost-effective thermal energy storage through the use of high-temperature phase-change materials as part of the "Development of a Low-Cost Thermal Energy Storage System Using Phase-Change Materials with Enhanced Radiation Heat Transfer" project.
Date:
May 25, 2012
Creator:
University of South Florida
Object Type:
Text
System:
The UNT Digital Library
Electric Adsorption Heat Pump for Electric Vehicles
Advanced Research Projects Agency-Energy project sheet summarizing general information about the High Energy Advanced Thermal Storage (HEATS) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses the development of an advanced nanomaterial for electrical vehicle heating and cooling systems as part of the "Electric-Powered Adsorption Heat Pump for Electric Vehicles" project.
Date:
May 25, 2012
Creator:
Pacific Northwest National Library
Object Type:
Text
System:
The UNT Digital Library
Electronic Reconstruction through the Structural and Magnetic Transitions in Detwinned NaFeAs
We use angle-resolved photoemission spectroscopy to study twinned and detwinned iron pnictide compound NaFeAs. Distinct signatures of electronic reconstruction are observed to occur at the structural (T{sub S}) and magnetic (T{sub SDW}) transitions. At T{sub S}, C{sub 4} rotational symmetry is broken in the form of an anisotropic shift of the orthogonal d{sub xz} and d{sub yz} bands. The magnitude of this orbital anisotropy rapidly develops to near completion upon approaching T{sub SDW}, at which temperature band folding occurs via the antiferromagnetic ordering wave vector. Interestingly, the anisotropic band shift onsetting at T{sub S} develops in such a way to enhance the nesting conditions in the C{sub 2} symmetric state, hence is intimately correlated with the long range collinear AFM order. Furthermore, the similar behaviors of the electronic reconstruction in NaFeAs and Ba(Fe{sub 1-x}Co{sub x}){sub 2}As{sub 2} suggests that this rapid development of large orbital anisotropy between T{sub S} and T{sub SDW} is likely a general feature of the electronic nematic phase in the iron pnictides, and the associated orbital fluctuations may play an important role in determining the ground state properties.
Date:
May 25, 2012
Creator:
Yi, M.; Lu, D. H.; Moore, R. G.; Kihou, K.; Lee, C. H.; Iyo, A. et al.
Object Type:
Article
System:
The UNT Digital Library
Exchange-Spring Magnets
Advanced Research Projects Agency-Energy project sheet summarizing general information about the Rare Earth Alternatives in Critical Technologies (REACT) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses a new cost-effective exchange-spring magnet as part of the "Nanocomposite Exchange-Spring Magnets for Motor and Generator Applications" project.
Date:
May 25, 2012
Creator:
Argonne National Laboratory
Object Type:
Text
System:
The UNT Digital Library
Gelled Ionic Liquid-Based Membranes
Advanced Research Projects Agency-Energy project sheet summarizing general information about the Innovative Materials and Processes for Advanced Carbon Capture Technologies (IMPACCT) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses the development of gelled membranes as part of the "Achieving a 10,000 GPU Permeance for Post-Combustion Carbon Capture with Gelled Ionic Liquid-Based Membranes" project.
Date:
May 25, 2012
Creator:
University of Colorado Boulder
Object Type:
Text
System:
The UNT Digital Library
High-Surface-Area CO2 Sponge
Advanced Research Projects Agency-Energy project sheet summarizing general information about the Innovative Materials and Processes for Advanced Carbon Capture Technologies (IMPACCT) program including critical needs, innovation and advantages, impacts, and contact information. This sheet discusses the development of carbon sponges as part of the "High Performance CO2 Scrubbing Based on Hollow Fiber-Supported Designer Ionic Liquid Sponges" project.
Date:
May 25, 2012
Creator:
Oak Ridge National Laboratory
Object Type:
Text
System:
The UNT Digital Library