Federal Contractor Profile
Physical Sciences INC.
$469M obligated·727 awards·10 agencies·20 NAICS
Federal Contracts
Showing contracts 851–900 of 1,010 total. Sorted by action date, most recent first. Excludes $0 modifications.
| Date | Agency | PIID | NAICS | Description | Amount |
|---|---|---|---|---|---|
| Nov 29, 2017 | Department of the InteriorIBC ACQ SERVICES DIVISION (00063) | 140D6318C0013 | 541715 | SWITCHABLE LWIR FILTER USING PHASE-CHANGE MATERIALS | $100K |
| Nov 28, 2017 | Department of DefenseW6QK ACC-PICA | W15QKN18C0005 | 541715 | SBIR PHASE II FOR MULTIMODAL TRACE EXPLOSIVES DETECTION WITH FEATURE-BASED FUSION | $500K |
| Nov 27, 2017 | Department of DefenseNSWC DAHLGREN | N0002412C4148 | 541711 | BASICTOPIC N093-205 | $100K |
| Nov 24, 2017 | Department of Homeland SecurityDOM NUCLEAR DETECT OFF ACQ DIV | HSHQDC14CB0050 | 541712 | IGF::OT::IGF EXPLORATORY RESEARCH TO SUPPORT THE RADIATION AND AWARENESS AND INTERDICTION NETWORK (RAIN) ADVANCED TECHNOLOGY DEMONSTRATION (ATD) | $293K |
| Nov 17, 2017 | Department of DefenseW6QK ACC-APG NATICK | 0001 | 541715 | START OF CONTRACT MEETING | $1K |
| Nov 17, 2017 | Department of DefenseMISSILE DEFENSE AGENCY (MDA) | HQ014717C7238 | 541712 | IGF::OT::IGF SBIR/STTR PHASE I RESEARCH&DEVELOPMENT | $50K |
| Nov 10, 2017 | Department of DefenseDEF ADVANCED RESEARCH PROJECTS AGCY | 70RDND18C00000023 | 541712 | IGF::OT::IGF SIGMA PROGRAM | $685K |
| Nov 1, 2017 | Department of DefenseNSWC DAHLGREN | N0017817C0011 | 541712 | IGF::OT::IGF SBIR PHASE II BASE PERIOD | $529K |
| Oct 17, 2017 | Department of DefenseFA9453 AFRL RVK | FA945318C0220 | 541715 | IGF::OT::IGF SCALABLE MICROWAVE DRIVEN JET BASED TEST BED FOR SIMULATED HYPERSONIC REENTRY EFFECTS ON MATERIALS | $750K |
| Oct 17, 2017 | Department of DefenseDEF ADVANCED RESEARCH PROJECTS AGCY | HR001116C0127 | 541712 | IGF::OT::IGF PHYSICAL SCIENCES INC. ATOMIC CLOCK WITH ENHANCED STABILITY (ACES) AWARD - RESEARCH INTO PASSIVE CONTROL OF ALKALI VAPOR PRESSURE AT ELEVATED TEMPERATURE TO ASSIST THE ACES PROGRAM DEVELOP CLOCKS WITH SIGNIFICANTLY REDUCED TEMPERATURE COEFFICIENT OF FREQUENCY, LONG-TERM FREQUENCY VARIATION, AND FREQUENCY REPEATABILITY UNDER POWER CYCLING. | $78K |
| Oct 16, 2017 | Department of DefenseW6QK ACC-PICA | W15QKN18C0006 | 541715 | PHASE II SBIR FOR DEFECT DETECTION IN NARROW BORE COMPONENTS WITH QUANTUM DOT LIQUID PENETRANTS | $624K |
| Sep 28, 2017 | Department of DefenseW6QK ACC-APG DURHAM | W911NF16C0107 | 541712 | IGF::OT::IGF STTR PHASE II | $391K |
| Sep 28, 2017 | Department of DefenseNSWC DAHLGREN | N0017817C1338 | 541712 | IGF::OT::IGF STATUS REPORT | $125K |
| Sep 26, 2017 | Department of Homeland SecurityDOM NUCLEAR DETECT OFF ACQ DIV | HSHQDN17C00009 | 541711 | IGF::OT::IGF SBIR PHASE III AWARD FOR DNDO MURS PROTOTYPES | $2.8M |
| Sep 25, 2017 | National Aeronautics and Space AdministrationNASA SHARED SERVICES CENTER | 80NSSC17C0017 | 541712 | IGF::OT::IGFPHYSICAL SCIENCES INC. (PSI), IN COLLABORATION PURDUE UNIVERSITY, PROPOSES TO DEVELOP A NOVEL LAUNCH PROPULSION TECHNOLOGY FOR RAPID INSERTION OF NANO/MICRO SATELLITES (~ 5-100 KG SCALE) INTO LOW EARTH ORBIT, WITH THE POTENTIAL TO LOWER THE CURRENT STATE-OF-THE-ART LAUNCH STAGE COST BY 2X. THE TECHNOLOGY EMPLOYS A PROPULSION SCHEME COMPRISING A STORABLE LIQUID OXIDIZER AND A UNIQUE SOLID FUEL WITH EXCELLENT MECHANICAL AND THERMOCHEMICAL PROPERTIES. THE PROPOSED APPLICATION TO LAUNCH VEHICLE STAGES WILL RESULT IN LOW-COST, MASS-EFFICIENT LAUNCH SYSTEMS AND WILL REDUCE TECHNICAL DEVELOPMENT RISK FOR NASA. THE FUEL AND OXIDIZER ARE COMMERCIALLY AVAILABLE AT LOW COST AS AN INEXPENSIVE ENGINEERING MATERIAL AND AS AN INDUSTRIAL CHEMICAL. BOTH HAVE HIGH DENSITY, ARE GREEN, AND THE SYSTEM HAS A HIGH SPECIFIC IMPULSE (>275S; VACUUM). THE OXIDIZER STORAGE, HANDLING, TRANSPORTATION, AND LOADING OPERATIONS ARE SIMPLER AND SAFER COMPARED TO CRYOGENIC/TOXIC PROPELLANTS. THE FOREGOING ATTRIBUTES ENABLE THE LOWER COST OF THE PROPOSED HYBRID LAUNCH VEHICLE STAGE. THE PERFORMANCE OF CURRENT HYBRIDS IS LIMITED BY THEIR TYPICALLY LOW FUEL REGRESSION RATES. IN PHASE I, WE INVESTIGATED TECHNIQUES FOR SIGNIFICANTLY AUGMENTING THE REGRESSION RATE, DEMONSTRATING ~ 3.5X INCREASE IN 30 LBF THRUSTER FIRINGS. USING THIS DATA, WE PERFORMED DESIGN TRADES FOR A HYBRID STAGE AS THE SECOND/UPPER LAUNCH VEHICLE STAGE. THE ENHANCED REGRESSION RATE ALLOWED A MORE COMPACT, LIGHTER, HIGHER THRUST-TO-WEIGHT STAGE THAN WOULD BE POSSIBLE WITH CURRENT HYBRIDS. IN PHASE II, WE WILL PERFORM DETAILED EXPERIMENTS TO OPTIMIZE PROPULSIVE PERFORMANCE ON THE SAME PHASE I HYBRID THRUSTER, AND DEMONSTRATE A LARGE SCALE (~1000 LBF) MOTOR, REPRESENTATIVE OF UPPER STAGES OF A LAUNCH VEHICLE INCORPORATING THE OPTIMIZED DESIGN. PHASE II WILL END WITH A FLIGHT PROTOTYPE DESIGN AND A PLAN FOR A SUB-ORBITAL FLIGHT TEST, OR A COMPREHENSIVE GROUND TEST IN SIMULATED ENVIRONMENT. | $750K |
| Sep 25, 2017 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833517C0626 | 541712 | IGF::OT::IGF | $125K |
| Sep 25, 2017 | Department of Homeland SecurityDOM NUCLEAR DETECT OFF ACQ DIV | HSHQDN17C00010 | 541712 | IGF::OT::IGF SBIR PHASE II VIRTUAL SOURCE TRAINING TOOLKIT | $570K |
| Sep 22, 2017 | Department of DefenseW6QK ACC-APG | W911SR17C0041 | 541711 | IGF::OT::IGF SBIR PHASE I : DUAL MODE T-DHM/IR SPECTRAL SENSOR FOR TIME-RESOLVED PATHOGEN IMAGING | $150K |
| Sep 21, 2017 | Department of DefenseNAVSEA HQ | N0002417C4014 | 541712 | IGF::OT::IGF RIF-2016-000127 | $3.0M |
| Sep 21, 2017 | Department of DefenseFA4417 1 SOCONS | FA441717P0155 | 334511 | INSTANT EYE#2 - DRONES | $14K |
| Sep 20, 2017 | Department of DefenseNAVAIR WARFARE CTR AIRCRAFT DIV | N6833517C0577 | 541712 | RESEARCH AND DEVELOPMENT SBIR PHASE II IGF::OT::IGF | $505K |
| Sep 18, 2017 | Department of DefenseW6QK ACC-APG | W911SR17C0038 | 541711 | IGF::OT::IGF STTR PHASE I. THE GOAL OF THIS CONTRACT IS THE DEVELOPMENT OF A DETECTOR NETWORK FOR THE PERSISTENT SURVEILLANCE AND DETECTION OF AEROSOLIZED BIOLOGICAL WARFARE AGENTS (BWAS). | $150K |
| Sep 15, 2017 | Department of DefenseFA9300 AFTC PZR | FA930017P1012 | 541712 | IGF::OT::IGF SBIR I | $150K |
| Sep 12, 2017 | Department of DefenseFA4417 1 SOCONS | FA441717P0110 | 334511 | INSTANT EYE - DRONES | $14K |
| Sep 7, 2017 | Department of DefenseW6QK ACC-APG DURHAM | W911NF16C0099 | 541712 | IGF::OT::IGF DARPA SOLICITATION NO. DARPA 2015.2 SBIR; NEW DARPA SBIR PHASE II CONTRACT. | $508K |
| Aug 31, 2017 | Department of DefenseNAVAL SPECIAL WARFARE COMMAND | H9224017P0122 | 541712 | 1812-350-02 BATTERY | $22K |
| Aug 31, 2017 | Department of the InteriorIBC ACQ SERVICES DIVISION (00063) | IND17PC00023 | 541712 | IGF::OT::IGF LOCAL PCS SEARCH CAPABILITY FOR LOW COST RADIATION DETECTORS | $500K |
| Aug 29, 2017 | Department of Homeland SecurityDOM NUCLEAR DETECT OFF ACQ DIV | HSHQDN16C00011 | 541712 | IGF::OT::IGF DHS DNDO WIND ATD BAA AWARD | $779K |
| Aug 15, 2017 | Department of DefenseW6QK ACC-RSA | W31P4Q17C0075 | 541712 | IGF::OT::IGF ARMY SMALL BUSINESS INNOVATION RESEARCH PHASE II FOR WORK ENTITLED, "THE CHEMICAL AND PHYSICAL MECHANISM PROCESSES OF AL-AL2O3 WITHIN THE ACCELERATING FLOW OF SOLID ROCKET MOTORS (SRM)" | $507K |
| Aug 15, 2017 | Department of DefenseNSWC DAHLGREN | N0002415C4054 | 541712 | BASE IGF::OT::IGF | $300K |
| Aug 14, 2017 | Department of DefenseW6QK ACC-RSA | W31P4Q16C0105 | 541712 | IGF::OT::IGF DARPA SBIR PHASE II CONTRACT RTW 69-16 | $416K |
| Aug 14, 2017 | Department of DefenseW6QK ACC-PICA | W15QKN16C0061 | 541712 | IGF::OT::IGF DEFECT DETECTION IN NARROW BORE COMPONENTS WITH QUANTUM DOT LIQUID PENETRANTS, SBIR PHASE I. | $50K |
| Aug 14, 2017 | Department of DefenseW6QK ACC-PICA | W15QKN16C0063 | 541712 | IGF::OT::IGF MULTIMODAL TRACE EXPLOSIVES DETECTION WITH FEATURE-BASED FUSION SBIR PHASE I. | $50K |
| Aug 8, 2017 | Department of the InteriorIBC ACQ SERVICES DIVISION (00063) | IND17PC00301 | 541712 | IGF::OT::IGF NOVEL ON-ORBIT FABRICATION OF VERY LARGE STRUCTURES ENABLING UNIQUE SPACE OPERATIONS | $500K |
| Aug 3, 2017 | Department of Homeland SecurityDOM NUCLEAR DETECT OFF ACQ DIV | HSHQDN16C00028 | 541712 | IGF::OT::IGF TECHNOLOGY MATURATION OF THE ADVANCED PROCESSOR FOR SCINTILLATORS (APS) | $38K |
| Aug 3, 2017 | Department of DefenseFA8650 USAF AFMC AFRL PZL AFRL/PZL | FA865017P1186 | 541712 | IGF::OT::IGF COMPACT GIMBALLED BROADBAND HYPERSPECTRAL IMAGING SYSTEM | $150K |
| Aug 2, 2017 | Department of Homeland SecurityDOM NUCLEAR DETECT OFF ACQ DIV | HSHQDN17C00004 | 541712 | IGF::OT::IGF | $150K |
| Aug 1, 2017 | Department of DefenseDEF ADVANCED RESEARCH PROJECTS AGCY | 70RDND18C00000023 | 541712 | IGF::OT::IGF SIGMA PROGRAM | $1.1M |
| Jul 21, 2017 | Department of DefenseW6QK ACC-APG | W911SR17C0048 | 541712 | IGF::OT::IGF SBIR SEQUENTIAL PHASE II | $779K |
| Jul 19, 2017 | Department of DefenseW6QK ACC-APG DURHAM | W911NF17P0055 | 541712 | IGF::OT::IGF PHASE I FIRST MONTHLY TECHNICAL REPORT | $150K |
| Jul 19, 2017 | Department of DefenseW6QK ACC-APG | W911SR17C0042 | 541712 | IGF::OT::IGF SBIR PHASE I-6 MONTH BASE | $150K |
| Jun 29, 2017 | Department of DefenseW4GG HQ US ARMY TACOM | W56HZV17C0182 | 541712 | IGF::OT::IGF PHASE I STTR STUDYING REAL TIME INLINE BACTERIA DETECTION FOR MILITARY MOBILE WATER TREATMENT SYSTEM | $150K |
| Jun 23, 2017 | Department of DefenseFA8650 USAF AFMC AFRL PZL AFRL/PZL | FA865016C5016 | 541712 | IGF::OT::IGF CERAMIC TECHNOLOGIES FOR SHAPE STABLE HYPERSONIC | $181K |
| Jun 15, 2017 | Department of DefenseDEF ADVANCED RESEARCH PROJECTS AGCY | 70RDND18C00000023 | 541712 | IGF::OT::IGF SIGMA PROGRAM | $118K |
| Jun 14, 2017 | Department of Health and Human ServicesNATIONAL INSTITUTES OF HEALTH NIDA | HHSN271201700028C | 541712 | IGF::OT::IGF LABHAND PAYLOAD FOR INSTANTEYE SUAS PLATFORM FOR CONTINUOUS AUTONOMOUS INDOOR TRANSPORT OF LABORATORY CONSUMABLES | $230K |
| Jun 13, 2017 | Department of the InteriorIBC ACQ SERVICES DIVISION (00063) | IND17PC00301 | 541712 | IGF::OT::IGF NOVEL ON-ORBIT FABRICATION OF VERY LARGE STRUCTURES ENABLING UNIQUE SPACE OPERATIONS | $350K |
| Jun 1, 2017 | Department of DefenseNSWC DAHLGREN | N0002412C4148 | 541711 | BASICTOPIC N093-205 | $145K |
| May 31, 2017 | Department of the InteriorIBC ACQ SERVICES DIVISION (00063) | IND16PC00040 | 541712 | IGF::OT::IGF MARITIME TAGGING, TRACKING, AND LOCATING (MTTL) SMALL UNMANNED AIR SYSTEM (SUAS) | $499K |
| May 24, 2017 | National Aeronautics and Space AdministrationNASA SHARED SERVICES CENTER | NNX17CP63P | 541712 | IGF::OT::IGF NASA NEEDS INNOVATIVE TECHNOLOGIES TO PROTECT BIOLOGICAL SENSORS AND TO PREVENT CONTAMINATION OF EXTRATERRESTRIAL BODIES SUCH AS EUROPA, ENCELADUS OR MARS. PHYSICAL SCIENCES INC. (PSI) WILL DEVELOP NOVEL BROAD SPECTRUM ANTIMICROBIAL (ABFV: ANTI-BACTERIAL/FUNGAL/VIRAL) COATINGS FOR THE EXPOSED SURFACES OF SPACECRAFT METALS, PLASTIC, AND ELECTRONICS THAT WILL ACT AS A BIO-BARRIER TO PREVENT BOTH FORWARD AND BACKWARD CONTAMINATION. THE TECHNOLOGY WILL OFFER A COMPLEMENTARY AND MILDER APPROACH TO THE CURRENT, ENERGY INTENSIVE STERILIZATION METHODS SUCH AS HEAT PROCESSING, GAMMA/ELECTRON BEAM IRRADIATION, COLD PLASMA AND VAPOR HYDROGEN PEROXIDE. IN ADDITION, THESE CURRENT TECHNOLOGIES ONLY PROVIDE A ONE-TIME STERILIZATION. THE PSI APPROACH IS A PERMANENT COATING THAT WILL PREVENT INADVERTENT CONTAMINATION THROUGHOUT THE SPACECRAFT ASSEMBLY AND INTEGRATION. THE PHASE I WORK WILL BUILD UPON PSI'S PREVIOUS EFFORTS THAT DEVELOPED HIGHLY EFFICACIOUS AND BROAD SPECTRUM ANTIMICROBIAL (ABFV: ANTI-BACTERIAL/FUNGAL/VIRAL) FINISHES FOR TEXTILE SURFACES. DURING THE PHASE I WORK, PSI WILL SYNTHESIZE ABFV COMPOUNDS THAT PERMANENTLY ATTACH TO THE SURFACE OF METALLIC MATERIALS SUCH AS ALUMINUM AND STAINLESS STEEL. PSI WILL DEMONSTRATE HIGH EFFICACY AND BROAD SPECTRUM ANTIMICROBIAL ACTIVITY OF THE TREATED METALLIC SURFACES AS WELL AS COMPATIBILITY WITH CURRENT STERILIZATION PROCESSES. IN A POTENTIAL PHASE II, PSI WILL FURTHER DEMONSTRATE THE TECHNOLOGY AT A SCALE RELEVANT TO SPACECRAFT APPLICATIONS. IN ADDITION, PSI WILL EXTEND THE USE OF THE NEW ANTIMICROBIAL TECHNOLOGY TO OTHER SPACECRAFT HARDWARE MATERIALS SUCH POLYMERS, ELECTRONICS AND COMPOSITES AND DEMONSTRATE THE ABFV TREATMENT ON REPRESENTATIVE PIECES OF SPACECRAFT HARDWARE. | $124K |
| May 23, 2017 | National Aeronautics and Space AdministrationNASA SHARED SERVICES CENTER | NNX17CC69P | 541712 | IGF::OT::IGF PHYSICAL SCIENCES INC. (PSI) PROPOSES TO DEVELOP NEW SOLAR CELLS BASED ON A FERROELECTRIC SEMICONDUCTOR ABSORBER MATERIAL THAT CAN YIELD A 30% INCREASE IN EFFICIENCY AND A 20% INCREASE IN SPECIFIC POWER COMPARED WITH CURRENT TRIPLE-JUNCTION III-V CELLS. THESE GAINS WILL BE REALIZED BY EXPLOITING A UNIQUE CHARGE SEPARATION MECHANISM IN FERROELECTRICS THAT ENABLES OPEN-CIRCUIT VOLTAGES MANY TIMES THE BAND GAP, LEADING TO MAXIMUM POWER CONVERSION EFFICIENCIES EXCEEDING THE CONVENTIONAL SHOCKLEY-QUEISSER LIMIT (33%). PSI AND TEAM MEMBERS WILL CREATE PHOTOVOLTAIC CELLS BASED ON EARTH-ABUNDANT SNS STABILIZED IN A FERROELECTRIC STATE BY EPITAXIAL STRAIN ENGINEERING. BY COMBINING ABOVE-GAP CELL VOLTAGES WITH THE HIGH ABSORPTION COEFFICIENT (<1 X 105 CM-1 AT 500 NM), LOW DENSITY (5.22 G/CM3), AND IDEAL BAND GAP (1.1 EV) OF SNS, A MASS-SPECIFIC POWER DENSITY OF 120 KW/KG (MASS OF ABSORBER MATERIAL, 1 UM ABSORBER THICKNESS) IS PROJECTED. IN ADDITION, A MAXIMUM CELL EFFICIENCY OF>45% IS ANTICIPATED TO BE ACHIEVABLE. IMPORTANTLY, THESE CELLS WILL ALSO OFFER IMPROVED RADIATION RESISTANCE DUE TO THE REDUCED CARRIER DIFFUSION LENGTHS REQUIRED BY THE UNIQUE FERROELECTRIC CHARGE SEPARATION MECHANISM. DURING PHASE I, PSI, GUIDED BY FIRST-PRINCIPLES CALCULATIONS CONDUCTED BY THE PARADIM CENTER AT CORNELL UNIVERSITY, WILL DEMONSTRATE ROOM-TEMPERATURE FERROELECTRIC ORDERING IN SNS THROUGH EPITAXIAL STRAIN ENGINEERING. DURING PHASE II, PSI AND LAWRENCE BERKELEY NATIONAL LABORATORY WILL DEMONSTRATE THE POTENTIAL OF THE PROPOSED ABSORBER BY ACHIEVING ABOVE-BAND GAP OPEN-CIRCUIT VOLTAGES IN PROTOTYPE CELLS. DURING A PHASE III EFFORT, THE EFFICIENCY OF THESE CELLS WILL BE INCREASED TO A TARGET VALUE OF 45% THROUGH REDUCTION OF INTRINSIC DEFECTS, LEADING TO SUBSTANTIAL IMPROVEMENTS IN CELL SIZE, WEIGHT, AND POWER OUTPUT. | $125K |
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