Travis County, Texas, funds by National Science Foundation
Listing $30,317,742.25 in stimulus funds from National Science Foundation for Travis
Note: For some programs where states do not report where money will be distributed across the state, we do not have the allocation for individual counties. Those programs include: Medicaid, unemployment benefits and food stamps. Those amounts are included in the totals for where the state agency receiving that money is located.
Amount refers to both the amount of stimulus funding going toward the project and the face value of the loan.
Recipient | Amount | Description | Federal Dept./Agency | Date |
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UNIVERSITY OF TEXAS AT AUSTIN | $4,850,111 |
Trans-NSF Recovery Act Reasearch Support Visualization is one of the most important and commonly used methods of analyzing and interpreting digital assets. For many types of computational research, it is the only viable means of extracting information and developing understanding from data. Howe
This spending item is part of a $7,000,000 allocation.
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National Science Foundation | 7/25/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $2,002,463 | Trans-NSF Recovery Act Reasearch Support Simplified ice sheet models in current use are incapable of accounting for the dynamics of flow transitions that are key to how ice sheets respond to environmental change. It is these regions that are now rapidly changing. The concern is that currently st | National Science Foundation | 8/31/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $1,000,000 | Trans-NSF Recovery Act Reasearch Support The project is funded to support current 3 year Graduate Fellows on tenure in science and engineering fields. | National Science Foundation | 8/11/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $988,186 | Trans-NSF Recovery Act Reasearch Support The proposed work is to examine changes in structural and physical properties along the southern Costa Rica subduction zone using 3D seismic imaging. At this location the plate boundary transitions from stable sliding to unstable sliding. Understanding su | National Science Foundation | 8/10/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $950,000 | Trans-NSF Recovery Act Reasearch Support We increasingly rely on MAD Services, systems that span Multiple Administrative Domains. Examples include cloud computing, peer-to-peer streaming, Internet routing, and wireless mesh routing. Unfortunately, when different parties control a system's nodes, | National Science Foundation | 7/27/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $900,000 | Trans-NSF Recovery Act Reasearch Support The objective of this research is to develop nanomanufacturing methods for fabrication of shape-specific ?smart? nanoparticles capable of delivering drugs or imaging agents to targeted tissues in response to disease-specific or physiological signals. Spec | National Science Foundation | 6/23/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $799,998 | Trans-NSF Recovery Act Reasearch Support Concurrency-related vulnerabilities are pervasive in modern computing systems. Concurrency exploits include time-of-check-to-time-of-use (TOCTTOU) race conditions in file systems, attacks on signal handlers, and evasive malware that uses concurrency to es | National Science Foundation | 7/20/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $775,600 | Trans-NSF Recovery Act Reasearch Support The main objective of the proposed research is to find a geometrically meaningful compactification of the moduli space of polarized K3 surfaces, obtained as an instance of Mumford's theory of toroidal compactifications.The theory requires a fan structure | National Science Foundation | 5/27/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $698,600 | Trans-NSF Recovery Act Reasearch Support Researchers at the University of Texas at Austin are requesting the purchase of a cutting-edge time-of-flight secondary ion mass spectrometer (TOF-SIMS) for spectroscopy, imaging, and sputter depth profiling of a large variety of solid samples. This TOF-S | National Science Foundation | 8/26/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $633,687 | Trans-NSF Recovery Act Reasearch Support As a single sheet of graphite, graphene has a number of exceptional properties, including: extraordinary mechanical properties, high thermal conductivity and excellent electrical conductivity. Combined with its very high specific surface area (for the ind | National Science Foundation | 5/22/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $599,680 | Trans-NSF Recovery Act Reasearch Support The goal of this project is to extend current models of marital development by examining the links between external stress and relationship behaviors through the assessment of marital quality, and relationship skills of couples over the early years of mar | National Science Foundation | 8/16/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $566,803 | Trans-NSF Recovery Act Reasearch Support Dr. Michael Montgomery of the University of Texas will lead a combined observational and theoretical project to study pulsating white dwarf stars. They will use the Argos timeseries photometer on the 2.1m at McDonald Observatory, supplemented by the 4.1m | National Science Foundation | 6/09/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $555,076 | Trans-NSF Recovery Act Reasearch Support Dr Gebhardt and his team will use a fiber-fed spectrograph at the McDonald 2.7-meter telescope to measure stellar motions in the outer parts of nearby elliptical galaxies. The large fibers will gather diffuse light over a 2-arcminute field of view, which | National Science Foundation | 8/08/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $544,314 | Trans-NSF Recovery Act Reasearch Support This proposal requests the purchase of a Quanta 250 FEG environmental scanning electron microscope (ESEM) from FEI for nanometer-scale imaging and analysis of biological samples under near-biological environmental conditions. The proposed instrument is to | National Science Foundation | 1/21/2010 |
UNIVERSITY OF TEXAS AT AUSTIN | $525,000 |
Trans-NSF Recovery Act Reasearch Support The National Nanotechnology Infrastructure Network (NNIN) is a partnership of 14 institutions (Cornell University, Georgia Institute of Technology, Harvard University, Howard University, , Pennsylvania State University, Stanford University, University of
This spending item is part of a $10,000,000 allocation.
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National Science Foundation | 9/17/2009 |
BIOO SCIENTIFIC CORPORATION | $500,000 | Trans-NSF Recovery Act Reasearch Support The overall objective of this project is to commercialize targeted in vivo delivery agent kits and reagents such that they are readily available to researchers to perform directed RNAi in vivo experiments. Currently, access to this technology is limited o | National Science Foundation | 8/01/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $499,996 | Trans-NSF Recovery Act Reasearch Support Network matrices, such as traffic matrices, delay matrices, adjacency matrices, and social proximity matrices, are essential inputs to a wide range of network applications. Network matrices and the underlying network often exhibit a multi-faceted scaling | National Science Foundation | 8/13/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $499,996 | Trans-NSF Recovery Act Reasearch Support The goal of this proposal is to devise and implement a scalable virtual machine that includes scalable garbage collectors, profilers and just-intime (JIT) compilers. As hardware vendors deliver chip multiprocessors (CMPs) as the next-generation generalpur | National Science Foundation | 7/27/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $499,991 | Trans-NSF Recovery Act Reasearch Support Opportunistic communication leverages communication opportunities arising by chance to provide significant performance benefit or even enable communication where it would be impossible otherwise. This project develops algorithms, techniques, and protocols | National Science Foundation | 8/01/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $483,000 | Trans-NSF Recovery Act Reasearch Support The development of a low temperature scanning tunneling microscope with spin-polarized and spectroscopic capabilities is proposed (SP-STM). While a handful of similar instruments are operating in Europe and Japan, so far there are only two in the US. The | National Science Foundation | 9/08/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $470,000 | Trans-NSF Recovery Act Reasearch Support Peter Rossky of the University of Texas, Austin, is supported by an award from the Theoretical and Computational Chemistry program to carry out research on quantum mechanical simulation of chemical dynamics in condensed phases. The research focuses on thr | National Science Foundation | 7/04/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $463,020 |
Trans-NSF Recovery Act Reasearch Support This award was made by NSF to sponsor a combination of original research, education and outreach. The research seeks to examine the neural substrates underlying mammalian vocal communication using a novel model species, Alston's singing mouse (Scotinomys
This spending item is part of a $700,000 allocation.
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National Science Foundation | 6/24/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $459,940 | Trans-NSF Recovery Act Reasearch Support Modern networks (like InfiniBand and 10GigE) have capability to provide topology, routing and also network status information at run-time. This leads to the following broad challenge: Can the next generation petascale systems provide topology-aware MPI co | National Science Foundation | 8/13/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $447,027 | Trans-NSF Recovery Act Reasearch Support This award is funded under the American Recovery and Reinvestment Act of 2009 (Public Law 111-5). It will provide funding for this group to continue their contributions to searching for the neutrinoless double beta decay. The observation of neutrino oscil | National Science Foundation | 8/11/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $424,840 | Trans-NSF Recovery Act Reasearch Support This research seeks to develop a new class of bio-inspired,single phase liquid cooling systems for application in three-dimensional integrated circuitry. The novel features of the research are twofold: (i) use of coolant flow channel patterns commonly fou | National Science Foundation | 7/24/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $401,250 | Trans-NSF Recovery Act Reasearch Support This is a collaborative project involving a consortium of six premier U.S universities and one national laboratory to train graduate students in an area of anticipated manpower need: advanced acceleration techniques. In particular, students will be traine | National Science Foundation | 9/15/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $399,971 | Trans-NSF Recovery Act Reasearch Support The performance of network users' best effort flows, e.g., file transfer delays and web browsing responsiveness, depends on the resources they are allocated over time. When varying traffic loads share these resources and/or wireless nodes' transmission ca | National Science Foundation | 7/24/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $398,590 | Trans-NSF Recovery Act Reasearch Support Mutualistic alliances between different organisms generate common goods for the interacting organisms that often exceed the sum of the parts. For example, attine fungusgrowing ants provide their fungal cultivars with growth material, shelter, and protecti | National Science Foundation | 7/29/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $382,355 | Trans-NSF Recovery Act Reasearch Support This project determines the fundamental limits of network secrecy from a network coding perspective, and then applies this theory to improve security guarantees in peer-to-peer and wireless networks. As network coding gains prominence as an important stra | National Science Foundation | 7/24/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $380,130 | Trans-NSF Recovery Act Reasearch Support This award is funded under the American Recovery and Reinvestment Act of 2009 (Public Law 111-5). The objective of this project is to develop a theoretical framework for monolayer graphene based on nonlinear continuum mechanics and atomistic modeling. Wit | National Science Foundation | 6/22/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $358,520 | Trans-NSF Recovery Act Reasearch Support Dr. Kumar's research program will address two fundamental issues regarding long duration Gamma Ray Bursters (GRBs). The first is the mechanism for production of the prompt gamma-ray emission and how the energy in an expanding jet is converted into radiati | National Science Foundation | 8/27/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $344,845 | Trans-NSF Recovery Act Reasearch Support Funds are provided to examine the nature and cause of shortterm ice sheet velocity changes. The work field would occur near Swiss Camp, Greenland and focus on the interactions between the ice sheet, the atmosphere and the bed through an integrated observa | National Science Foundation | 8/28/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $323,456 | Trans-NSF Recovery Act Reasearch Support Undergraduate students and K-12 teachers in University of Texas Environmental Science Institute's combined REU/RET program will work in the research groups of faculty mentors working on scientific topics related to The Integrated Science of Global Change | National Science Foundation | 6/21/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $315,669 |
Trans-NSF Recovery Act Reasearch Support Future discovery and control in biology and medicine will come from the mathematical modeling of large-scale molecular biological data, such as DNA microarray data, just as Kepler discovered the laws of planetary motion by using mathematics to describe tr
This spending item is part of a $400,053 allocation.
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National Science Foundation | 8/11/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $311,473 | Trans-NSF Recovery Act Reasearch Support The proposed research is addressing the important question of the impact of human intervention on uncertainties that drive a particular system. Methods will be developed to assess whether interactions between decisions and uncertainties exist. If the answ | National Science Foundation | 7/16/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $300,000 | Trans-NSF Recovery Act Reasearch Support The research objective of the proposed research is to employ electrodeposition techniques in the design of a manufacturing route for creation of fully dense metal-nonmetallic selective laser sintered parts. The approach will be to adapt and modify convent | National Science Foundation | 7/20/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $299,993 | Trans-NSF Recovery Act Reasearch Support The goal of the PI is to make a significant contribution in cardiovascular tissue engineering though research, education, and the transformation of stem cell engineering. In this context, stem cell engineering includes the design of cell and drug delivery | National Science Foundation | 6/02/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $282,683 | Trans-NSF Recovery Act Reasearch Support This award is funded under the American Recovery and Reinvestment Act of 2009 (Public Law 111-5). This study seeks to understand and quantify the role of large woody debris (LWD) in driving hydrologic connections and exchanges of fluid, mass, and energy b | National Science Foundation | 6/05/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $280,000 | Trans-NSF Recovery Act Reasearch Support Many concentrated materials consist of soft particles (e.g., emulsions, elastic particles, microgels, star polymers or polymer-coated particles) packed and deformed into an amorphous state. These pastes are important as rheological modifiers for food, mat | National Science Foundation | 6/29/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $262,651 | Trans-NSF Recovery Act Reasearch Support Two major surveys of Galactic field halo stars will be carried out in order to illuminate and constrain models of early chemical evolution in the Milky Way Galaxy. In one, a detailed study of high resolution spectra of over 100 stars with known space moti | National Science Foundation | 7/30/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $257,732 |
Trans-NSF Recovery Act Reasearch Support This award is an outcome of the NSF 09-524 program solicitation 'George E. Brown, Jr. Network for Earthquake Engineering Simulation (NEES) Research (NEESR)' competition and includes Texas A&M University in College Station, Texas (lead institution), The Un
This spending item is part of a $1,226,000 allocation.
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National Science Foundation | 7/20/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $250,000 | Trans-NSF Recovery Act Reasearch Support Ferroelectric ceramics have unique properties, including piezoelectricity, pyroelectricity, the electro-optic effect, phase change, and polarization switching. These special properties make them useful for a wide range of technological applications. For e | National Science Foundation | 8/05/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $228,672 | Trans-NSF Recovery Act Reasearch Support The research objective of this award is to advance the manufacture, the fundamental understanding, and the device application of graphene-nanocrystal metamaterials or hybrid graphene-nanocrystal structures, i.e., graphene sheets with discrete nanocrystals | National Science Foundation | 7/09/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $217,159 | Trans-NSF Recovery Act Reasearch Support This project will investigate a novel method for producing large amounts of high-quality DNA sequence data for phylogenomic applications. The project will extend a strategy called microarray-based genome selection (MGS), which is capable of enriching a DN | National Science Foundation | 7/29/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $214,053 | Trans-NSF Recovery Act Reasearch Support This proposal seeks funding to study the evolution of the lithospheric mantle beneath the central Rio Grande Rift and Colorado Plateau margin. The project will provide insights into a variety of questions related to the tectonic and volcanic evolution of | National Science Foundation | 7/19/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $204,038 |
Trans-NSF Recovery Act Reasearch Support The PIs propose to develop a new, high-resolution (annual to sub-decadal) paleoclimate record (0-1,000 y) from sediment cores taken on the Arctic inner continental shelf. The proposal is a follow-up to a regular Arctic Natural Sciences panel submission th
This spending item is part of a $299,930 allocation.
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National Science Foundation | 6/30/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $200,000 | Trans-NSF Recovery Act Reasearch Support The Division of Chemistry supports the PI at the University of Texas at Austin as an American Competitiveness in Chemistry Fellow. He will investigate the preparation, assembly and properties of one-dimensional type II CdSe/ZnTe semiconductor nanorods and | National Science Foundation | 8/18/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $198,297 | Trans-NSF Recovery Act Reasearch Support Florida State University, University of Texas at Austin and the University of Kansas are collaborating to create a distributed information system that integrates image-based morphological data to improve species and specimen identification. In order to ac | National Science Foundation | 8/04/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $195,243 | Trans-NSF Recovery Act Reasearch Support A calibration of the paleosol carbonate CO2 barometer is proposed in order to improve estimates of the concentration of CO2 in Earth?s ancient atmosphere. The concentration of CO2 in the soil during soil carbonate formation, S(z), is required in order to | National Science Foundation | 7/31/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $190,099 | Trans-NSF Recovery Act Reasearch Support How does competition influence innovation? This project takes a unique approach to understand this question: It develops an evidence-based simulation platform to understand how competitive dynamics influences innovation. This approach contributes new know | National Science Foundation | 6/22/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $181,358 |
Trans-NSF Recovery Act Reasearch Support As a team, we plan to generate three different sets of deliverables including a rigorous theoretical analysis, a set of reusable market-based knowledge management tools, and an econometric analysis of the data we capture from our research sites. Analyti
This spending item is part of a $703,950 allocation.
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National Science Foundation | 8/24/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $180,584 | Trans-NSF Recovery Act Reasearch Support The objective of this project is to develop fast and robust numerical reconstruction methods for linear and nonlinear inverse transport problems appeared in many application areas. The main approach proposed is to incorporate a priori information into opt | National Science Foundation | 7/10/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $166,731 |
Trans-NSF Recovery Act Reasearch Support This award is funded under the American Recovery and Reinvestment Act of 2009 (Public Law 111-5).This award is an outcome of the NSF 09-524 program solicitation ''George E. Brown, Jr. Network for Earthquake Engineering Simulation (NEES) Research (NEESR)''
This spending item is part of a $638,327 allocation.
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National Science Foundation | 7/17/2009 |
ASPEN SCIENCES, INC. | $150,000 | Trans-NSF Recovery Act Reasearch Support STTR Phase I: Nanoselenium for Simultaneous Detection and Capture of Mercury Vapor in Fluorescent Lighting Technology. This Small Business Technology Transfer (STTR) Phase I project is focused on the development of a new technology for reducing the huma | National Science Foundation | 6/26/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $146,595 | Trans-NSF Recovery Act Reasearch Support This proposal describes several major research thrusts related to algebraic invariants of structured ring spectra. In algebraic K-theory, the PI describes an approach to resolving the central conjectures of Waldhausen and Rognes that underpin a program to | National Science Foundation | 6/25/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $140,456 | Trans-NSF Recovery Act Reasearch Support Auroux-Donaldson-Katzarkov discovered a startlingly simple picture of smooth non-negative-definite 4-manifolds, generalizing Donaldson's interpretation of symplectic 4-manifolds as Lefschetz pencils. They view a 4-manifold, after blowing it up, as the tot | National Science Foundation | 8/20/2010 |
UNIVERSITY OF TEXAS AT AUSTIN | $122,244 | Trans-NSF Recovery Act Reasearch Support The objective of this project is to inspire students at Tuskegee University and Auburn University in mathematics, aerospace science engineering, and networking by inviting them to contribute to a grand project: fly safely and efficiently, in a limited spa | National Science Foundation | 8/01/2009 |
HERAEUS QUARTZ AMERICA, LLC | $109,988 |
Trans-NSF Recovery Act Reasearch Support NSF/NCAR C-130 Modernization:To ensure that the NSF/NCAR C-130 remains a premier research platform, able to operate safely for the next 20 years, very important modernization efforts are planned: 1) Replace avionics to be compatible with the next generat
This spending item is part of a $10,700,000 allocation.
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National Science Foundation | 7/20/2009 |
XIDEX CORPORATION | $100,000 |
Trans-NSF Recovery Act Reasearch Support This award is funded under the American Recovery and Reinvestment Act of 2009 (Public Law 111-5). This Small Business Technology Transfer Phase I project will demonstrate the feasibility of building and operating a carbon nanotube (CNT) based electrolyti
This spending item is part of a $150,000 allocation.
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National Science Foundation | 6/15/2009 |
CERTICHEM INC | $99,884 | Trans-NSF Recovery Act Reasearch Support This Small Business Innovation Research Phase I project will test 23 food antioxidants (AOs) for their EA or anti- EA. The project will also examine whether EA levels change after AOs are exposed to common-use-stresses of sterilizing or microwaving. Thi | National Science Foundation | 6/30/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $96,339 | Trans-NSF Recovery Act Reasearch Support The principal investigator will pursue several lines of research motivated by three deep open questions in the theory of word-hyperbolic groups. (1) Is every hyperbolic group residuall finite? If so, then in fact word-hyperbolic groups satisfy much strong | National Science Foundation | 6/17/2009 |
Mondo Promotions Inc | $86,352 |
Trans-NSF Recovery Act Reasearch Support The award description is Development of Hyperspectral Optical Property Instrumentation (HOPI)for Biomedical and Environmental Research.
This spending item is part of a $524,171 allocation.
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National Science Foundation | 1/20/2010 |
UNIVERSITY OF TEXAS AT AUSTIN | $76,804 |
Trans-NSF Recovery Act Reasearch Support This research examines practices of software development, co-creation and sharing in collaborative scientific research based on a sample of multiple virtual organizations using the Open Science Grid. Almost every workflow that generates scientific results
This spending item is part of a $400,000 allocation.
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National Science Foundation | 9/14/2009 |
HERAEUS QUARTZ AMERICA, LLC | $68,776 |
Trans-NSF Recovery Act Reasearch Support NSF/NCAR C-130 Modernization:To ensure that the NSF/NCAR C-130 remains a premier research platform, able to operate safely for the next 20 years, very important modernization efforts are planned: 1) Replace avionics to be compatible with the next generat
This spending item is part of a $10,700,000 allocation.
See details
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National Science Foundation | 7/20/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $60,000 |
Trans-NSF Recovery Act Reasearch Support Title: STTR Phase I: Desalination Using Functionalized Magnetic Nanoparticles: This Small Business Technology Transfer Phase I project proposes the research and development of a functionalized magnetic nanoparticle to be used in a new water desalination
This spending item is part of a $150,000 allocation.
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National Science Foundation | 6/23/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $58,000 | Trans-NSF Recovery Act Reasearch Support This collaborative research project is being undertaken by Dr. David L. Bourell, University of Texas at Austin, and Dr. Khalid M. Elghany, Central Metallurgical R&D Institute, Egypt, to evaluate and optimize freeform fabrication processes for porous metal | National Science Foundation | 9/11/2009 |
UNIVERSITY OF TEXAS AT AUSTIN | $50,000 |
Trans-NSF Recovery Act Reasearch Support This award is funded under the American Recovery and Reinvestment Act of 2009 (Public Law 111-5). This Small Business Technology Transfer Phase I project will demonstrate the feasibility of building and operating a carbon nanotube (CNT) based electrolyti
This spending item is part of a $150,000 allocation.
See details
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National Science Foundation | 6/15/2009 |
HERAEUS QUARTZ AMERICA, LLC | $46,800 |
Trans-NSF Recovery Act Reasearch Support NSF/NCAR C-130 Modernization:To ensure that the NSF/NCAR C-130 remains a premier research platform, able to operate safely for the next 20 years, very important modernization efforts are planned: 1) Replace avionics to be compatible with the next generat
This spending item is part of a $10,700,000 allocation.
See details
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National Science Foundation | 7/20/2009 |
HERAEUS QUARTZ AMERICA, LLC | $42,624 |
Trans-NSF Recovery Act Reasearch Support NSF/NCAR C-130 Modernization:To ensure that the NSF/NCAR C-130 remains a premier research platform, able to operate safely for the next 20 years, very important modernization efforts are planned: 1) Replace avionics to be compatible with the next generat
This spending item is part of a $10,700,000 allocation.
See details
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National Science Foundation | 7/20/2009 |