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+ | |||
+ | ==NSF Grant Data== | ||
+ | |||
+ | The NSF grant data are in folders by year, each grant is an xml file. The format of a typical file is shown below. There is data available from 1959 onwards, and full records after 1976. In 2016 there were ~10,000 awards. | ||
+ | |||
+ | Each year can be downloaded from: [https://www.nsf.gov/awardsearch/download.jsp https://www.nsf.gov/awardsearch/download.jsp] | ||
+ | |||
+ | Data is located in: | ||
+ | E:\McNair\Projects\Federal Grant Data\NSF | ||
+ | |||
+ | Sample XML schema | ||
+ | |||
+ | <rootTag> | ||
+ | <Award> | ||
+ | <AwardTitle> | ||
+ | Collaborative Research: Hybrid Organic-Inorganic Thermoelectric Materials | ||
+ | </AwardTitle> | ||
+ | <AwardEffectiveDate>08/31/2016</AwardEffectiveDate> | ||
+ | <AwardExpirationDate>06/30/2017</AwardExpirationDate> | ||
+ | <AwardAmount>95461</AwardAmount> | ||
+ | <AwardInstrument> | ||
+ | <Value>Standard Grant</Value> | ||
+ | </AwardInstrument> | ||
+ | <Organization> | ||
+ | <Code>07030000</Code> | ||
+ | <Directorate> | ||
+ | <LongName>Directorate For Engineering</LongName> | ||
+ | </Directorate> | ||
+ | <Division> | ||
+ | <LongName>Div Of Civil, Mechanical, & Manufact Inn</LongName> | ||
+ | </Division> | ||
+ | </Organization> | ||
+ | <ProgramOfficer> | ||
+ | <SignBlockName>Thomas F. Kuech</SignBlockName> | ||
+ | </ProgramOfficer> | ||
+ | <AbstractNarration> | ||
+ | Thermoelectric materials are materials which can be used to convert thermal energy directly to electricity. The performance of a thermoelectric material is measured by the "figure of merit", termed ZT. There has been much research into increasing thermoelectric materials, figure of merit, however, progress in this area has been slow and most of the researched thermoelectric materials up to now are suffering from either high fabrication cost, usage of rare earth or toxic elements, or poor mechanical properties. Organic thermoelectric materials (OTEs) have recently attracted attention for low temperature applications (< 300K), especially cooling purposes, as they are flexible, low-cost and abundant, and low-cost fabrication methods for synthesizing them exist... A large class of semiconducting nanostructures (e.g. Si, CdTe, Bi, and PbTe nanowires and holely structures) combined with conjugated polymers (e.g., chemically-modified PEDOT and low bandgap polymers) and organic molecules (specifically charged chemical species attached to molecules such as CF3- substituted styrene molecules) will be simulated, synthesized and optimized to identify new hybrid materials with a potentially high ZT. | ||
+ | </AbstractNarration> | ||
+ | <MinAmdLetterDate>12/22/2016</MinAmdLetterDate> | ||
+ | <MaxAmdLetterDate>12/22/2016</MaxAmdLetterDate> | ||
+ | <ARRAAmount/> | ||
+ | <AwardID>1723353</AwardID> | ||
+ | <Investigator> | ||
+ | <FirstName>Mona</FirstName> | ||
+ | <LastName>Zebarjadi</LastName> | ||
+ | <EmailAddress>mz6g@virginia.edu</EmailAddress> | ||
+ | <StartDate>12/22/2016</StartDate> | ||
+ | <EndDate/> | ||
+ | <RoleCode>Principal Investigator</RoleCode> | ||
+ | </Investigator> | ||
+ | <Institution> | ||
+ | <Name>University of Virginia Main Campus</Name> | ||
+ | <CityName>CHARLOTTESVILLE</CityName> | ||
+ | <ZipCode>229044195</ZipCode> | ||
+ | <PhoneNumber>4349244270</PhoneNumber> | ||
+ | <StreetAddress>P.O. BOX 400195</StreetAddress> | ||
+ | <CountryName>United States</CountryName> | ||
+ | <StateName>Virginia</StateName> | ||
+ | <StateCode>VA</StateCode> | ||
+ | </Institution> | ||
+ | <ProgramElement> | ||
+ | <Code>8092</Code> | ||
+ | <Text>Materials Eng. & Processing</Text> | ||
+ | </ProgramElement> | ||
+ | <ProgramReference> | ||
+ | <Code>024E</Code> | ||
+ | <Text>MATERIALS DESIGN</Text> | ||
+ | </ProgramReference> | ||
+ | <ProgramReference> | ||
+ | <Code>036E</Code> | ||
+ | <Text>CIVIL INFRASTRUCTURE</Text> | ||
+ | </ProgramReference> | ||
+ | </Award> | ||
+ | </rootTag> | ||
+ | |||
+ | ==Survey of Federal Funds for Research and Development Fiscal Years 2014–16== | ||
+ | |||
+ | Excel spreadsheets with data regarding Federal Agency budgets and spending on R&D [https://ncsesdata.nsf.gov/fedfunds/2014/] | ||
+ | |||
+ | E:\McNair\Projects\Federal Grant Data\NSF\NSF Data Tables |
Revision as of 14:05, 3 April 2017
NSF Data | |
---|---|
Project Information | |
Project Title | NSF Data |
Owner | Catherine Kirby |
Start Date | 03/31/17 |
Deadline | |
Keywords | NSF |
Primary Billing | |
Notes | |
Has project status | Active |
Copyright © 2016 edegan.com. All Rights Reserved. |
NSF Grant Data
The NSF grant data are in folders by year, each grant is an xml file. The format of a typical file is shown below. There is data available from 1959 onwards, and full records after 1976. In 2016 there were ~10,000 awards.
Each year can be downloaded from: https://www.nsf.gov/awardsearch/download.jsp
Data is located in:
E:\McNair\Projects\Federal Grant Data\NSF
Sample XML schema
<rootTag> <Award> <AwardTitle> Collaborative Research: Hybrid Organic-Inorganic Thermoelectric Materials </AwardTitle> <AwardEffectiveDate>08/31/2016</AwardEffectiveDate> <AwardExpirationDate>06/30/2017</AwardExpirationDate> <AwardAmount>95461</AwardAmount> <AwardInstrument> <Value>Standard Grant</Value> </AwardInstrument> <Organization>07030000
<Directorate> <LongName>Directorate For Engineering</LongName> </Directorate> <Division> <LongName>Div Of Civil, Mechanical, & Manufact Inn</LongName> </Division> </Organization> <ProgramOfficer> <SignBlockName>Thomas F. Kuech</SignBlockName> </ProgramOfficer> <AbstractNarration> Thermoelectric materials are materials which can be used to convert thermal energy directly to electricity. The performance of a thermoelectric material is measured by the "figure of merit", termed ZT. There has been much research into increasing thermoelectric materials, figure of merit, however, progress in this area has been slow and most of the researched thermoelectric materials up to now are suffering from either high fabrication cost, usage of rare earth or toxic elements, or poor mechanical properties. Organic thermoelectric materials (OTEs) have recently attracted attention for low temperature applications (< 300K), especially cooling purposes, as they are flexible, low-cost and abundant, and low-cost fabrication methods for synthesizing them exist... A large class of semiconducting nanostructures (e.g. Si, CdTe, Bi, and PbTe nanowires and holely structures) combined with conjugated polymers (e.g., chemically-modified PEDOT and low bandgap polymers) and organic molecules (specifically charged chemical species attached to molecules such as CF3- substituted styrene molecules) will be simulated, synthesized and optimized to identify new hybrid materials with a potentially high ZT. </AbstractNarration> <MinAmdLetterDate>12/22/2016</MinAmdLetterDate> <MaxAmdLetterDate>12/22/2016</MaxAmdLetterDate> <ARRAAmount/> <AwardID>1723353</AwardID> <Investigator> <FirstName>Mona</FirstName> <LastName>Zebarjadi</LastName> <EmailAddress>mz6g@virginia.edu</EmailAddress> <StartDate>12/22/2016</StartDate> <EndDate/> <RoleCode>Principal Investigator</RoleCode> </Investigator> <Institution> <Name>University of Virginia Main Campus</Name> <CityName>CHARLOTTESVILLE</CityName> <ZipCode>229044195</ZipCode> <PhoneNumber>4349244270</PhoneNumber> <StreetAddress>P.O. BOX 400195</StreetAddress> <CountryName>United States</CountryName> <StateName>Virginia</StateName> <StateCode>VA</StateCode> </Institution> <ProgramElement>8092
<Text>Materials Eng. & Processing</Text> </ProgramElement> <ProgramReference>024E
<Text>MATERIALS DESIGN</Text> </ProgramReference> <ProgramReference>036E
<Text>CIVIL INFRASTRUCTURE</Text> </ProgramReference> </Award> </rootTag>
Survey of Federal Funds for Research and Development Fiscal Years 2014–16
Excel spreadsheets with data regarding Federal Agency budgets and spending on R&D [1]
E:\McNair\Projects\Federal Grant Data\NSF\NSF Data Tables