← LeaderboardsInvestigatorsiAttributed = a PI's even-split share of each grant — a $1M grant with 2 PIs counts $500K each.
University Of Oklahoma
Norman, OK
$459,382,257
Total funding
537
Grants
Funding over time
peak $56M · FY2006–25$100M$75M$50M$25M$0
'06
'07
'08
'09
'10
'11
'12
'13
'14
'15
'16
'17
'18
'19
'20
'21
'22
'23
'24
'25
Funding mix
By agency
NIH$161,103,367 · 180
DOE$134,835,040 · 96
DOD$121,300,159 · 154
NASA$34,959,001 · 92
USDA$7,160,184 · 14
ACF$24,506 · 1
By mechanism
—$298,278,890 · 357
R01$86,224,348 · 65
P20$30,391,141 · 31
R21$14,831,146 · 40
RM1$8,506,463 · 1
R35$7,437,954 · 6
Investigators at University Of Oklahoma
InvestigatorsiAttributed = a PI's even-split share of each grant — a $1M grant with 2 PIs counts $500K each.
Exposure= the full size of every grant they're on ($1M each).
Rising Stars
First grant in the last 5 yrs
Emerging Leaders
6–10 yrs in
Largest grants
INFLATION REDUCTION ACT (IRA) – CREATING ACCESSIBLE AND ACTIONABLE METHANE EMISSION DATA FOR OKLAHOMA COMMUNITIES
THE GOAL OF THIS PROJECT IS TO CREATE ACCESSIBLE AND ACTIONABLE METHANE EMISSION DATA FOR OKLAHOMA COMMUNITIES INFORMED BY THEIR DESIRED INFORMATION NEEDS THROUGH THE PROPOSED UNIVERSITY-COMMUNITY-INDUSTRY-TRIBAL NATION COLLABORATIVE (COLLABORATIVE). THE COLLABORATIVE WILL DETECT AND QUANTIFY MITIGATION OF METHANE AND CO-POLLUTANT EMISSIONS ACROSS ECONOMIC SECTORS AND TRAIN LOCAL TECHNICIANS TO CAPTURE AND UNDERSTAND THE DATA THAT WILL DRIVE DOWN LOCAL EMISSIONS AND INFORM MITIGATION STRATEGIES. THE INITIAL EMPHASIS WILL BE ON NINE DISADVANTAGED URBAN AND RURAL COMMUNITIES AND SEVEN TRIBAL NATIONS NEAR NATURAL GAS AND OIL-PRODUCING BASINS AND TRANSPORT NETWORKS IN OKLAHOMA.$10,000,000
· FY2025 · Department of Energy
MAXIMIZING OUTPUT POWER OF ALL-DIGITAL, SOLID-STATE ARRAYS FOR LONG-DISTANCE APPLICATIONS$8,160,000
· FY2023 · Department of the Navy
TAS::89 0222::TAS CENTER FOR INTERFACIAL REACTION ENGINEERING$8,070,079
· FY2010 · Department of Energy
EXPERIMENTAL PHYSICS INVESTIGATIONS USING COLLIDING BEAM DETECTORS; NONPERTURBATIVE QUANTUM FIELD THEORY, PARTICLE PHYSICS BEYOND THE STANDARD MODEL$8,036,000
· FY2013 · Department of Energy
THROUGH THE DESIGN AND IMPLEMENTATION OF THE PROPOSED SOLAR-GEOTHERMAL DISTRICT HEATING AND COOLING (SOL-GDHC) SYSTEM, THE PROJECT TEAM EXPECTS TO GAIN A GREATER UNDERSTANDING OF THE FINANCIAL AND ENVIRONMENTAL BENEFITS OF THE SOL-GDHC SYSTEM THROUGH REAL-TIME DATA COLLECTION IN THE DEMONSTRATION COMMUNITY. DOCUMENTATION OF THE PROPOSED SYSTEM, ITS DESIGN, IMPLEMENTATION, OPERATION, VERIFIED PERFORMANCE CHARACTERISTICS, MAINTENANCE PLAN, AND BUSINESS MODEL WILL PROVIDE A ROADMAP FOR FUTURE IMPLEMENTATIONS OF THE SOL-GDHC SYSTEM OF VARIOUS (LARGER AND SMALLER) SCALES THROUGHOUT THE MIDWEST AND OTHER AREAS OF THE NATION IN SIMILAR GEOGRAPHIC SITUATIONS AND ENVIRONMENTS. OUR OVERALL PROJECT GOAL IS TO PROMOTE THE SOL-GDHC SYSTEM DEPLOYMENT IN THE U.S. BY PROVIDING INNOVATIONS IN DISTRICT GEOTHERMAL SYSTEM SIMULATION, DESIGN, INSTALLATION, OPERATION, PERFORMANCE ASSESSMENT, AND WORKFORCE TRAINING. THE OBJECTIVES IN BUDGET PERIOD I (BP1) (PLANNING AND DESIGN) ARE:
1) TO IDENTIFY OPTIMAL DESIGN AND OPERATION PARAMETERS THROUGH A SIMULATION-BASED STUDY.
2) TO FINALIZE THE TECHNICAL DESIGN OF THE PROPOSED SYSTEM, INCLUDING
A. FULL ENGINEERING FEASIBILITY AND TECHNICAL DESIGN FOR THE SOL-GDHC SYSTEM(S)
B. TECHNICAL, ECONOMIC, AND ENVIRONMENTAL ASSESSMENT
C. MAINTENANCE PLAN
D. WORKFORCE TRANSITION OR DEVELOPMENT AND TRAINING PLAN, AND
E. PERMITTING PLAN
3) TO COMPLETE THE BP1 REPORT AND CONTINUATION APPLICATION.
OBJECTIVES IN BP2 (DEPLOYMENT) ARE:
1) TO FINALIZE AS-BUILT DESIGN, INSTALLATION, AND COMMISSION OF THE PROPOSED SYSTEM IN THE DEMONSTRATION COMMUNITY.
2) TO EVALUATE THE PERFORMANCE OF THE SOL-GDHC SYSTEM THROUGH DATA COLLECTION.
3) TO IMPLEMENT THE WORKFORCE DEVELOPMENT PLAN IN CPN TO OPERATE AND MANAGE THE GEOTHERMAL SYSTEM.
4) TO DISSEMINATE THE TECHNOLOGY THROUGH PUBLICATIONS AND TRAINING WORKSHOPS.$7,739,423
· FY2023 · Department of Energy
NEAR-FIELD SCANNER AND PROJECTS FOR ADVANCED DIGITAL RADAR$7,405,000
· FY2020 · Defense Contract Management Agency
FUNDAMENTAL RESEARCH ON THE BIOLOGICAL STABILITY OF FUTURE NAVAL FUELS AND IMPLICATIONS FOR THE BIOCORROSION OF METALLIC SURFACES$6,874,530
· FY2010 · Department of Defense
INCREASED BEAM BANDWIDTH PRODUCT ALL-DIGITAL POLARIMETRIC PHASED ARRARY RADAR MOBILE TESTBED$5,790,707
· FY2019 · Department of the Navy
ALL-DIGITAL POLARIMETRIC PHASED ARRAY RADAR MOBILE TESTBED$5,470,293
· FY2018 · Department of the Navy
TAS::89 0222::TAS FROM COMMUNITY STRUCTURE TO FUNCTIONS: METAGENOMICS-ENABLED PREDICTIVE UNDERSTANDING OF TEMPERATURE SENSITIVITY OF SOIL CARBON DECO$4,989,736
· FY2010 · Department of Energy
RESEARCH AND ANALYTICAL SUPPORT FOR THE AIR FORCE RESEARCH LABORATORY HUMAN EFFECTIVENESS DIRECTORATE IN ACCORDANCE WITH RECIPIENT'S PROPOSAL DATED 1$4,979,258
· FY2008 · Department of Defense
EXPERIMENTAL PHYSICS INVESTIGATIONS USING COLLIDING BEAM DETECTORS AT FERMILAB, CORNELL AND LHC: NONPERTURBATIVE QUANTUM FIELD THEORY BEYOND THE STAN$4,819,200
· FY2008 · Department of Energy
MECHANISMS OF DRUG PERMEATION ACROSS GRAM-NEGATIVE CELL WALLS$4,606,669
· FY2014 · Defense Threat Reduction Agency
REGIONAL-SCALE SHOWCASE OF AN INTEGRATED METHANE SENSING NETWORK IN THE ANADARKO BASIN
THIS PROJECT ADDRESSES THE OVERARCHING CHALLENGE OF MONITORING AND MEASURING METHANE EMISSIONS IN ONSHORE NATURAL GAS PRODUCTION FIELDS.$4,000,000
· FY2023 · Department of Energy
DEVELOPMENT AND TESTING OF NEW NONINVASIVE MONITORING TOOLS FOR PROLONGED FIELD CARE GOAL-DIRECTED THERAPY$3,868,204
· FY2018 · Department of the Army
INFLATION REDUCTION ACT (IRA) – FIELD DEPLOYMENT OF SCALABLE SOLUTIONS FOR EMISSION REDUCTION AND PERFORMANCE ENHANCEMENT OF INTEGRAL RECIPROCATING COMPRESSORS.
THE OBJECTIVES OF THIS AGREEMENT ARE TO COLLABORATE (RECIPIENT AND ITS’ PARTNERS) ON THE FIELD DEPLOYMENT, FULL-SCALE VALIDATION, AND COMMERCIALIZATION OF A LOW-COST EMISSIONS REDUCTION RETROFIT KIT FOR INTEGRAL RECIPROCATING COMPRESSORS (IRCS) WITH AN EXPECTED OUTCOME TO PROVIDE THE NATURAL GAS INDUSTRY WITH A TRANSFORMATIVE SOLUTION THAT NOT ONLY ENHANCES ENVIRONMENTAL SUSTAINABILITY BY MINIMIZING EMISSIONS BUT ALSO DRIVES POTENTIAL OPERATIONAL COST SAVINGS AND EFFICIENCY IMPROVEMENTS.$3,863,736
· FY2025 · Department of Energy
CENTER FOR APPLICATIONS OF SINGLE WALLED CARBON NANOTUBES$3,814,858
· FY2008 · Department of Energy
FROM STRUCTURE TO FUNCTIONS: METAGENOMICS-ENABLED PREDICTIVE UNDERSTANDING OF SOIL MICROBIAL FEEDBACKS TO CLIMATE CHANGE$3,633,152
· FY2013 · Department of Energy
EXPERIMENTAL PHYSICS INVESTIGATIONS USING COLLIDING BEAM DETECTORS AT FERMILAB, CORNELL AND LHC$3,541,200
· FY2009 · Department of Energy
TECHNOLOGIES FOR NEXT-GENERATION CONFORMAL AND RECONFIGURABLE RADAR SYSTEM$3,531,820
· FY2018 · Department of the Navy