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Award ID | Description | Recipient | Total Value | Awarding Agency | Funding Agency | Set Aside | NAICS | PSC | Award Date | Start Date | End Date | |
|---|---|---|---|---|---|---|---|---|---|---|---|---|
| OCEANS MULTIPLE AWARD CONTRACT (FFP) BOLLARD TEST DEVICE FABRICATION AND DEMONSTRATION | MAKAI OCEAN ENGINEERING INC | $136,633 | DEPT OF THE NAVY | DEPT OF THE NAVY | — | 541330Engineering Services | AG93 | Jul 30, 2020 | Jun 25, 2020 | Oct 15, 2021 | ||
| IGF::OT::IGF SEA STATE PREDICTION SYSTEM | CREARE LLC | $224,903 | DEPT OF THE NAVY | DEPT OF THE NAVY | — | 541330Engineering Services | AG93 | Jan 2, 2018 | Dec 29, 2017 | Apr 30, 2019 | ||
| IGF::OT::IGF SBIR PHASE I WAVE CHARACTERIZATION FROM INLS WARPING TUG | METRON INCORPORATED | $224,887 | DEPT OF THE NAVY | DEPT OF THE NAVY | — | 541330Engineering Services | AG93 | Dec 29, 2017 | Dec 29, 2017 | Dec 31, 2018 | ||
| IGF::OT::IGF SBIR PHASE I (BASE) WAVE CHARACTERISTICS MEASUREMENT SYSTEM (WCMS) | BLUEHALO LABS, LLC | $225,000 | DEPT OF THE NAVY | DEPT OF THE NAVY | — | 541330Engineering Services | AG93 | Dec 27, 2017 | Dec 27, 2017 | Dec 27, 2018 | ||
| IGF::OT::IGF SBIR PHASE II (BASE) TOPIC N161-023 | MATERIALS SCIENCES LLC | $991,953 | DEPT OF THE NAVY | DEPT OF THE NAVY | — | 541330Engineering Services | AG93 | Dec 8, 2017 | Dec 8, 2017 | Mar 31, 2020 | ||
| THIS CONVERTOR DEVELOPMENT EFFORT IS IN SUPPORT OF NASA'S SCIENCE MISSION DIRECTORATE AND ITS NEED FOR HIGHER EFFICIENCY RADIOISOTOPE POWER SYSTEMS. NASA GRC SEEKS TO DEVELOP POWER SYSTEMS WITH A CONVERSION EFFICIENCY OF AT LEAST 20 % AT THE GENERATOR LEVEL, WHICH WOULD OFFER A SIGNIFICANT IMPROVEMENT OVER THE CURRENT STATE OF THE ART RPS. | SUNPOWER, INC | $7,902,726 | NATIONAL AERONAUTICS AND SPACE ADMINISTRATION | NATIONAL AERONAUTICS AND SPACE ADMINISTRATION | — | 541715Research and Development in the Physical, Engineering, and Life Sciences (except Nanotechnology and Biotechnology) | AG93 | Oct 10, 2017 | Oct 10, 2017 | Jan 20, 2023 | ||
| NASA SEEKS TO INVESTIGATE DYNAMIC POWER CONVERSION TECHNOLOGIES FOR RADIOISOTOPE POWER SYSTEMS (RPS). THE CURRENT RPS. THE MULTI-MISSION RADIOTHERMOELECTRIC GENERATOR (MMRTG), PRODUCES ~110 WE AT A CONVERSION EFFICIENCY OF 6%. NASA DESIRES HIGHER CONVERSION EFFICIENCY RPS OPTIONS THAT ARE RELIABLE AND ROBUST WITH LONG DESIGN LIFE. DYNAMIC CONVERSION METHODS OFFER THE POTENTIAL FOR HIGHER CONVERSION EFFICIENCIES, BUT HAVE YET TO BE DEMONSTRATED IN A FLIGHT APPLICATION. EXAMPLES OF DYNAMIC CONVERSION TECHNOLOGIES INCLUDE BRAYTON, STIRLING, AND RANKINE CYCLE MACHINES. THE GOAL OF THIS PROGRAM ELEMENT IS TO INVESTIGATE DYNAMIC CONVERSION TECHNOLOGY OPTIONS SUITABLE FOR USE IN A POWER SYSTEM THAT UTILIZES GENERAL PURPOSE HEAT SOURCE (GPHS) STEP 2 MODULES. THE INTENT IS TO GATHER DATA ON CANDIDATE DYNAMIC CONVERSION TECHNOLOGIES TO FILL KNOWLEDGE GAPS, SUPPORT ASSESSMENTS OF DYNAMIC CONVERSION TECHNOLOGIES, AND ELICIT GENERATOR REQUIREMENTS. THE FOCUS OF THIS PROGRAM ELEMENT IS ON THE CONVERSION TECHNOLOGY ITSELF, THE TECHNOLOGY REQUIRED TO OPERATE THE CONVERTOR (I.E. CONTROLLERS), AND THE THERMAL MANAGEMENT NECESSARY TO OPERATE THE CONVERTORS. NASA WILL LEAD THIS CONVERTOR TECHNOLOGY INVESTIGATION WHILE COLLABORATING WITH THE U.S. DEPARTMENT OF ENERGY (DOE). ONCE FLIGHT DEVELOPMENT RISKS FOR CONVERSION TECHNOLOGIES ARE UNDERSTOOD AND GENERATOR DEVELOPMENT IS DEEMED PRACTICAL, NASA AND DOE WILL DETERMINE THE PATH FORWARD FOR DOE'S DEVELOPMENT OF A DYNAMIC RPS FOR FLIGHT. AS SUCH, THE FLIGHT REQUIREMENTS FOR THE DYNAMIC RPS ARE NOT FINALIZED AND THIS WORK WILL BE INTEGRATED INTO THE FINAL SET OF SYSTEM REQUIREMENTS. | NORTHROP GRUMMAN SYSTEMS CORP | $3,904,383 | NATIONAL AERONAUTICS AND SPACE ADMINISTRATION | NATIONAL AERONAUTICS AND SPACE ADMINISTRATION | — | 541712 | AG93 | Sep 29, 2017 | Sep 29, 2017 | May 11, 2018 | ||
| IGF::OT::IGF SBIR PHASE II (BASE) - N161-023 | GLOBAL AEROSPACE CORPORATION | $999,885 | DEPT OF THE NAVY | DEPT OF THE NAVY | — | 541330Engineering Services | AG93 | Sep 21, 2017 | Sep 20, 2017 | Sep 19, 2019 | ||
| IGF::OT::IGF SBIR PHASE II TOPIC N152-098 - UNDERSEA POWER CONVERTER | DIVERSIFIED TECHNOLOGIES, INC. | $998,691 | DEPT OF THE NAVY | DEPT OF THE NAVY | — | 541712 | AG93 | Sep 21, 2017 | Sep 22, 2017 | May 31, 2021 | ||
| IGF::OT::IGF SBIR PHASE III BASE PERIOD TO VALIDATE TOWER GUY INSPECTION AND ASSESSMENT SYSTEMS. | QUEST INTEGRATED, LLC | $48,318 | DEPT OF THE NAVY | DEPT OF THE NAVY | — | 541712 | AG93 | Sep 8, 2016 | Sep 15, 2016 | Mar 31, 2017 | ||
| IGF::OT::IGF ESTEP FOR MICROBIAL FUEL CELL TECHNOLOGY R&D | J. CRAIG VENTER INSTITUTE, INC. | $545,261 | DEPT OF THE NAVY | DEPT OF THE NAVY | — | 541712 | AG93 | Aug 22, 2016 | Aug 22, 2016 | May 28, 2019 | ||
| IGF::OT::IGF SBIR PHASE 1 (BASE) - N161-023 SINKING HOSE SYSTEM | ADA TECHNOLOGIES, LLC | $149,994 | DEPT OF THE NAVY | DEPT OF THE NAVY | — | 541330Engineering Services | AG93 | Aug 12, 2016 | Aug 12, 2016 | Aug 15, 2017 | ||
| IGF::OT::IGF SBIR PHASE 1 (BASE) - N161-023 | MATERIALS SCIENCES LLC | $149,989 | DEPT OF THE NAVY | DEPT OF THE NAVY | — | 541330Engineering Services | AG93 | Aug 12, 2016 | Aug 12, 2016 | Aug 15, 2017 | ||
| IGF::OT::IGF SBIR PHASE 1 (BASE) - N161-023 | GLOBAL AEROSPACE CORPORATION | $149,999 | DEPT OF THE NAVY | DEPT OF THE NAVY | — | 541330Engineering Services | AG93 | Aug 12, 2016 | Aug 12, 2016 | Jun 15, 2017 | ||
| IGF::OT::IGF SBIR PHASE I MODULAR SMART MICRO/NANO-GRID POWER MANAGEMENT SYSTEM | INTELLIGENT POWER & ENERGY RESEARCH CORPORATION | $149,865 | DEPT OF THE NAVY | DEPT OF THE NAVY | — | 541711 | AG93 | Feb 8, 2016 | Feb 5, 2016 | Feb 7, 2017 | ||
| IGF::OT::IGF SBIR PHASE I-MOBILE PLASMA GASIFICATION SYSTEM FOR WASTE-TO-ENERGY CONVERSION | CREARE LLC | $149,905 | DEPT OF THE NAVY | DEPT OF THE NAVY | — | 541712 | AG93 | Jan 30, 2016 | Feb 1, 2016 | Jan 31, 2017 | ||
| IGF::OT::IGF 1. INTRODUCTION BACKGROUND NATIONAL AERONAUTICS AND SPACE ADMINISTRATION NASA GAME CHANGING TECHNOLOGY DEVELOPMENT PROGRAM IS DEVELOPING BATTERY TECHNOLOGY TO SUBSTANTIALLY IMPROVE THE PERFORMANCE OF SECONDARY RECHARGEABLE LITHIUM-ION CELLS TO MEET THE ENERGY STORAGE REQUIREMENTS OF HUMAN MISSIONS. FUTURE NASA MISSIONS REQUIRE ADVANCED BATTERIES THAT SAFELY PROVIDE SUBSTANTIALLY HIGHER SPECIFIC ENERGY AND ENERGY DENSITY THAN IS CURRENTLY AVAILABLE. THUS BEYOND LITHIUM-ION BATTERY CHEMISTRIES ARE PURSUED TO MEET THE HIGHER SPECIFIC ENERGY, PERFORMANCE AND SAFETY GOALS FOR FORESEEABLE HUMAN MISSIONS. ALTHOUGH THE EFFICACY OF THE UNDERLYING PROPOSED TECHNOLOGY WAS DEMONSTRATED SUCCESSFULLY IN THE CONTRACTOR, UNIVERSITY OF MARYLAND UMD, PRIOR WORK UNDER NASA PHASE I AND DOE ARPAE AND EERE CONTRACTS, THE CONTRACTOR WAS NOT ABLE TO OPTIMIZE THE CELL PARAMETERS, SUCH AS ELECTRODE PORE STRUCTURE AND FILLING, CATHODE TO ANODE CAPACITY RATIO, ETC, TO MAXIMIZE ENERGY DENSITY DUE TO PHASE I COST AND TIME LIMITATION. THE PROPOSAL OF GARNET ELECTROLYTE BASED SAFE, LITHIUM-SULFUR ENERGY STORAGE BY UMD TEAM HAS RECEIVED A PHASE II AWARD UNDER CATEGORY TWO, VERY HIGH SPECIFIC ENERGY DEVICE TO FIRST OPTIMIZE THE CELLS TO DEMONSTRATE ACHIEVABLE ENERGY DENSITY, THEN SCALE UP IN THE FULLFORMAT CELL AND BUILD MULTICELL STACKS FOR THE DEMONSTRATION AND FINALLY PROVIDE BATTERY PACK DESIGN TO MEET THE NASA ENERGY AND SAFETY REQUIREMENTS. 2. SCOPE OF WORK THE CONTRACTOR SHALL OPTIMIZE THE CELL PARAMETERS AND BUILD FULL FORMAT SOLID STATE LI S BATTERIES USING TRI-LAYER GARNET SOLID STATE ELECTROLYTE SSE STRUCTURE POROUS DENSE POROUS SCAFFOLD, WITH INFILTRATED LI INTO POROUS SSE AS ANODE, DENSE SSE AS SEPARATOR AND ELECTROLYTE, AND INFILTRATED S C INTO POROUS SSE AS CATHODE. ADDITIONALLY THE CONTRACTOR SHALL BUILD MULTICELL STACKS USING THOSE FULL FORMAT CELLS. THE TARGETED ENERGY DENSITY OF THE CELLS IS 540 WH KG WITH A LIFE OF 200 CYCLES WITH A 90 PERCENT DISCHARGE DEPTH AT ROOM TEMPERATURE. THE CONTRACTOR SHALL PROVIDE THE SPECIFICATIONS OF THE ANODE, CATHODE AND SOLID ELECTROLYTE CHEMISTRY IN THE CONSTRUCTION OF THE CELLS AND STACKS. THE CONTRACTOR SHALL PROVIDE DATA AND ANALYSIS FOR ADDRESSING THE OPERATIONAL SAFETY ISSUES. TWO STACKS WITH THE IDENTICAL DESIGN FOR THE ABOVE TEST CELLS SHALL BE PROVIDED FOR INDEPENDENT PERFORMANCE CHARACTERIZATION TESTING AT NASA GRC. THE CONTRACTOR SHALL ALSO PROVIDE A DESIGN FOR BATTERY STACKS TO MEET THE TOTAL ENERGY REQUIREMENTS OF NASA GAME CHANGING DEVELOPMENT PROGRAM. THE PROJECT IS CURRENTLY ESTIMATED AT A TECHNOLOGY READINESS LEVEL OF 3, AS DEFINED IN NASA NPR 7123.1B, AND SHALL END AT A TRL 4 AT THE END OF THE PHASE II EFFORT. DURING PHASE II, THE CONTRACTOR SHALL DEMONSTRATE THE FEASIBILITY OF FURTHER ADVANCING THE TRL DURING SUBSEQUENT PHASES OF DEVELOPMENT. 3. OBJECTIVES 3.1. FABRICATE FULL FORMAT, 10 CM X 10 CM, LI S BATTERIES USING TRI-LAYER GARNET ELECTROLYTES WITH SURFACE TREATMENT AND CONFORMAL CARBON COATING; 3.2. DEMONSTRATE AN ENERGY DENSITY OF 541 WH KG AND 1362 WH L WITH A CYCLING LIFE OF 200 WITH A 90 PERCENT DISCHARGE DEPTH AT C 10; 3.3. SUCCESSFULLY STACK AND PACKAGE 3 FULL FORMAT CELLS IN SERIES WITH ROBUST PERFORMANCE FROM 10 DEGREES C TO 30 DEGREES C; 3.4. DEVELOP BATTERY PACK DESIGN TO MEET THE TOTAL ENERGY REQUIREMENT OF THE NASA GAME CHANGING DEVELOPMENT PROGRAM. 4. TASKS THERE ARE NINE TASKS FOR THE PROPOSED WORK AS FOLLOWS. TASK 1. OPTIMIZATIONS OF POROUS DENSE POROUS TRILAYER GARNET ELECTROLYTE 1.1 OPTIMIZE THE TRILAYER FABRICATION PROCESS. SYSTEMATIC INVESTIGATION OF TAPE FORMULATIONS AND FIRING CONDITIONS TO PREVENT CURLING AND CRACKING, AND OBTAIN DESIRED POROUS-DENSE-POROUS MICROSTRUCTURE. 1.2 OPTIMIZE THE POROUS LAYER STRUCTURE. OPTIMIZE ANODE CATHODE LAYER THICKNESS AND PORE MICROSTRUCTURE TO BALANCE THE LI S CAPACITY. 1.3 LARGE BATCH PROCESSING. IMPROVE REPRODUCIBILITY AND INCREASE QUANTITY TO | UNIVERSITY OF MARYLAND, COLLEGE PARK | $947,606 | NATIONAL AERONAUTICS AND SPACE ADMINISTRATION | NATIONAL AERONAUTICS AND SPACE ADMINISTRATION | — | 541712 | AG93 | Jan 19, 2016 | Jan 19, 2016 | Jan 21, 2022 | ||
| IGF::OT::IGF 1.0 INTRODUCTION/BACKGROUND NATIONAL AERONAUTICS AND SPACE ADMINISTRATION S GAME CHANGING TECHNOLOGY DEVELOPMENT PROGRAM IS DEVELOPING BATTERY TECHNOLOGY TO SUBSTANTIALLY IMPROVE THE PERFORMANCE OF SECONDARY (RECHARGEABLE) LITHIUM-ION CELLS TO MEET THE ENERGY STORAGE REQUIREMENTS OF HUMAN MISSIONS. FUTURE NASA MISSIONS REQUIRE ADVANCED BATTERIES THAT SAFELY PROVIDE SUBSTANTIALLY HIGHER SPECIFIC ENERGY AND ENERGY DENSITY THAN IS CURRENTLY AVAILABLE. THUS BEYOND LITHIUM-ION BATTERY CHEMISTRIES ARE PURSUED TO MEET THE HIGHER SPECIFIC ENERGY, PERFORMANCE AND SAFETY GOALS FOR FORESEEABLE HUMAN MISSIONS. THE PROPOSAL OF GARNET ELECTROLYTE BASED SAFE, LITHIUM-SULFUR ENERGY STORAGE BY UNIVERSITY OF MARYLAND TEAM HAS BEEN AWARDED IN THE PHASE I UNDER CATEGORY TWO: VERY HIGH SPECIFIC ENERGY DEVICE TO PROVE THE FEASIBILITY OF PROPOSED WORK TO MEET THE NASA ENERGY AND SAFETY REQUIREMENTS. 2.0 SCOPE OF WORK THE CONTACTORS WILL BUILD ALL SOLID-STATE LI-S BATTERIES (POUCH CELLS OR COIN CELLS) USING TRIPLE-LAYER GARNET ELECTROLYTES FILLED WITH CONFORMAL CARBON. THE TARGETED ENERGY DENSITY OF THE CELLS IS 600 WH/KG WITH CYCLING LIFE OF 200 WITH A 90% DISCHARGE DEPTH AT ROOM TEMPERATURE. THE CONTRACTOR WILL PROVIDE THE SPECIFICATIONS OF THE ANODE, CATHODE AND SOLID ELECTROLYTE CHEMISTRY IN THE CONSTRUCTION OF THE CELLS. THE CONTRACTOR WILL PROVIDE DATA AND ANALYSIS FOR ADDRESSING THE OPERATIONAL SAFETY ISSUES. TWO CELLS WITH THE IDENTICAL DESIGN FOR THE ABOVE TEST CELLS SHALL BE PROVIDED FOR INDEPENDENT PERFORMANCE CHARACTERIZATION TESTING AT NASA GRC. THE CONTRACTOR WILL ALSO PROVIDE A DESIGN FOR BATTERY STACKS TO MEET THE TOTAL ENERGY REQUIREMENTS OF NASA GAME CHANGING DEVELOPMENT PROGRAM. THE PROJECT IS CURRENTLY ESTIMATED AT A TECHNOLOGY READINESS LEVEL OF 2 (AS DEFINED IN NASA NPR 7123.1B) AND WILL END AT A TRL 3 AT THE END OF THE PHASE I EFFORT. DURING PHASE I, THE CONTRACTOR SHALL DEMONSTRATE THE FEASIBILITY OF FURTHER ADVANCING THE TRL DURING SUBSEQUENT PHASES OF DEVELOPMENT. 3.0 TASKS THERE ARE FIVE TASKS FOR THE PROPOSED RESEARCH TASK 1. DEVELOPMENT OF DENSE-POROUS TRIPLE LAYER GARNET ELECTROLYTE STRUCTURE A POROUS-DENSE-POROUS TRIPLE LAYER WILL BE FABRICATED FROM LI-ION CONDUCTING GARNETS BY LAMINATING THE POROUS-DENSE-POROUS TRIPLE LAYER AND CO-SINTERING, WHERE THE OUTSIDE POROUS LAYERS ARE USED AS THE LI-ION CONDUCTING PHASE IN THE LI ANODE AND S CATHODE. 1.1 FABRICATION AND CHARACTERIZATIONS OF DENSE LAYER THE DENSITY WILL BE OPTIMIZED BY PARTICLE SIZE AND SINTERING TEMPERATURE AND CHARACTERIZED BY SEM. 1.2 FABRICATION AND CHARACTERIZATIONS OF POROUS LAYER THE POROSITY WILL BE OPTIMIZED BY PMMA PORE FORMER CONTENT AND SINTERING TEMPERATURE AND CHARACTERIZED USING BET AND SEM. 1.3 FABRICATION OF TRIPLE LAYER AND POTENTIAL SCALABLE STRATEGY THE TRIPLE LAYER WILL BE FABRICATED BY LAMINATION AND SINTERING OF THE THREE LAYERS. MICROSTRUCTURE WILL BE CHARACTERIZED BY BET AND SEM AND CONDUCTIVITY MEASURED BY EIS. TASK 2. INTEGRATE SULFUR (S) CATHODE INTO POROUS GARNET AS CATHODE ONE OUTER POROUS LI-GARNET LAYER WILL BE FILLED WITH CARBON NANOFIBERS (CNF) AND S TO FORM THE CATHODE. 2.1 POROUS, CONFORMAL NANOCARBON COATING IN THE PORES OF CATHODE SIDE CNF WILL BE DEPOSITED IN THE POROUS LI-GARNET LAYER USING MICROWAVE SYNTHESIS METHOD OR USING CNF SOLUTION. 2.2 VACUUM BASED FILLING OF SULFUR CATHODE S WILL BE INFILTRATED INTO CNF COATED POROUS LI-GARNET LAYER BY S GAS VACUUM INFUSION AT 600 C. THE CONDUCTIVITY OF S-CNF FILLED POROUS LI-GARNET WILL BE EVALUATED USING EIS. TASK 3. LI-INFILTRATION INTO POROUS GARNET AS ANODE ONE OUTER POROUS LI-GARNET LAYER WILL BE FILLED WITH CNF AND LI TO FORM THE ANODE. 3.1 INFILTRATION OF LI IN POROUS GARNET LI WILL BE INFILTRATED INTO CNF FILLED POROUS LI-GARNET LAYER BY PRE-HEATING IN AR GAS AND TO REMOVE THE MOISTURE, AND THEN INFILTRATE LIQUID LI INTO THE CNF FILLED PORES. 3.2 CHARACTERIZATIONS OF INTERFACIAL IMPED | UNIVERSITY OF MARYLAND, COLLEGE PARK | $250,000 | NATIONAL AERONAUTICS AND SPACE ADMINISTRATION | NATIONAL AERONAUTICS AND SPACE ADMINISTRATION | — | 611310Colleges, Universities, and Professional Schools | AG93 | Sep 29, 2014 | Oct 1, 2014 | Jun 1, 2015 | ||
| RIF RESEARCH AND DEVELOPMENT | PACIFIC SCIENCE & ENGINEERING GROUP, INC. | $1,881,151 | DEPT OF THE NAVY | DEPT OF THE NAVY | — | 541712 | AG93 | Sep 26, 2014 | Sep 26, 2014 | Sep 29, 2016 | ||
| IGF::OT::IGF LOCAL MOTORS WILL DEVELOP AND EXECUTE AN INNOVATION CHALLENGE FOR THE DESIGN OF ADVANCED AUTOMOTIVE VEHICLES. LOCAL MOTORS WILL UTILIZE THEIR EXISTING SOCIAL MEDIA NETWORK TO PROVIDE VIRTUAL COLLABORATION FOR VEHICLE DESIGN. IT WILL USE ITS EXISTING INFRASTRUCTURE FOR ADVERTISING, DISSEMINATING, CONDUCTING, AND JUDGING A CHALLENGE-STYLE ONLINE COMPETITION TO ADVANCE VEHICULAR SAFETY AND EFFICIENCY. THIS EFFORT WILL IDENTIFY NOVEL CONCEPTUAL DESIGNS OF SAFE, LIGHTWEIGHT, AND ENERGY EFFICIENT VEHICLES AND VEHICLE COMPONENTS FOR FUTURE RESEARCH INVESTMENTS BY ARPA-E, OTHER GOVERNMENT AGENCIES, INDUSTRY, AND ACADEMIA. | LOCAL MOTORS, INC. | $666,060 | ENERGY, DEPARTMENT OF | ENERGY, DEPARTMENT OF | — | 541990All Other Professional, Scientific, and Technical Services | AG93 | Sep 23, 2014 | Sep 23, 2014 | Apr 30, 2018 | ||
| IGF::CL::IGF RICARDO INC. PURCHASE ORDER FOR SUBSCRIPTION SERVICE | RICARDO LLC | $75,000 | ENERGY, DEPARTMENT OF | ENERGY, DEPARTMENT OF | — | 541611Administrative Management and General Management Consulting Services | AG93 | Jul 16, 2014 | Jul 16, 2014 | Jan 15, 2015 | ||
| IGF::OT::IGF NORTHEASTERN UNIVERSITY- FUTURE US WATER AVAILABILITY AND QUALITY | NORTHEASTERN UNIVERSITY | $85,000 | ENERGY, DEPARTMENT OF | ENERGY, DEPARTMENT OF | — | 541690Other Scientific and Technical Consulting Services | AG93 | Mar 5, 2014 | Mar 5, 2014 | Jan 30, 2015 | ||
| IGF::CL::IGF RICARDO INC. PURCHASE ORDER FOR SUBSCRIPTION SERVICE | RICARDO LLC | $75,000 | ENERGY, DEPARTMENT OF | ENERGY, DEPARTMENT OF | — | 541611Administrative Management and General Management Consulting Services | AG93 | Sep 25, 2013 | Sep 25, 2013 | Mar 31, 2014 | ||
| RESEARCH AND DEVELOPMENT CONTRACT FOR PROTOTYPE OF A LIGHTWEIGHT SOLDIER WEARABLE ENERGY HARVESTING DEVICE. | VIRGINIA POLYTECHNIC INSTITUTE & STATE UNIVERSITY | $589,240 | DEPT OF THE ARMY | DEPT OF THE ARMY | — | 541712 | AG93 | Sep 16, 2013 | Sep 23, 2013 | Sep 22, 2015 | ||
| IGF::OT::IGF RESEARCH AND DEVELOPMENT SERVICES CONTRACT IN RESPONSE TO BROAD AGENCY ANNOUCEMENT (BAA), SOLICITATION NUMBER W15P7T-11-R-A609, TOPIC D ENTITLED "SOLDIER WEARABLE HYBRID VERY HIGH ENERGY DENSITY POWER SOURCE." SERVICES SHALL BE PERFORMED IN ACCORDANCE WITH (IAW)THE PERFORMANCE WORK STATEMENT (PWS) ENTITLED, LIGHTWEIGHT, ENERGY-DENSE AND WEARABLE FUEL CELL POWER FOR IMPROVED MISSION DURATIONA DNE ENERGY TRANSPORT. | SIGNA CHEMISTRY, INC | $759,922 | DEFENSE CONTRACT MANAGEMENT AGENCY (DCMA) | DEPT OF THE ARMY | — | 541712 | AG93 | Sep 10, 2013 | Sep 15, 2013 | Mar 14, 2015 |