← LeaderboardsInvestigatorsiAttributed = a PI's even-split share of each grant — a $1M grant with 2 PIs counts $500K each.
Palo Alto Research Center Llc
$57,908,366
Total funding
35
Grants
Funding over time
peak $19M · FY2008–23$20M$15M$10M$5M$0
'08
'09
'10
'11
'12
'13
'14
'15
'16
'17
'18
'19
'20
'21
'22
'23
Funding mix
By agency
DOE$45,562,326 · 28
DOD$12,346,040 · 7
By mechanism
—$57,908,366 · 35
Investigators at Palo Alto Research Center Llc
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
Not enough data
Emerging Leaders
6–10 yrs in
Not enough data
All-Time
Most funded here, all years
Not enough data
Largest grants
SMART EMBEDDED NETWORK OF SENSORS WITH OPTICAL READOUT (SENSOR)$4,773,953
· FY2012 · Department of Energy
THE PURPOSE OF THIS AGREEMENT IS TO FUND RESEARCH SUPPORTING DSO IN THE AMOUNT OF 335,348 ON CONTRACT HR0011-17-2-0030.$3,930,999
· FY2017 · Defense Contract Management Agency
AIGAN DIODE LASERS ON BULK AIN$3,455,065
· FY2010 · Department of Defense
SPIRAL-WOUND AEROGEL ADSORBENT POLYMERS FOR DIRECT AIR CO2 CAPTURE (SWAAP)
THE PALO ALTO RESEARCH CENTER, INC (PARC), IN COLLABORATION WITH LAWRENCE LIVERMORE NATIONAL LABORATORY (LLNL) AND XEROX RESEARCH CENTRE OF CANADA (XRCC), PROPOSE TO DEVELOP A SPIRAL-WOUND AEROGEL ADSORBENT POLYMER (SWAAP) TO INTEGRATE PARC’S STRUCTURED ADSORBENT INTO A BENCHTOP DIRECT AIR CAPTURE (DAC) PROCESS. DURING THIS PROJECT, PARC WILL FABRICATE THE STRUCTURED ADSORBENT AND DEMONSTRATE A CONTINUOUS DAC BENCHTOP PROCESS, LLNL AND PARC WILL CONDUCT LAB-SCALE, FIXED-BED TESTING TO OPTIMIZE DAC MODULE DESIGN, AND XRCC AND PARC WILL DESIGN A LOW-COST, ROLL-TO-ROLL MANUFACTURING PROCESS FOR THE STRUCTURED ADSORBENT.$2,999,845
· FY2023 · Department of Energy
TAS::89 0331::TAS RECOVERY ACT: EXPERIMENT-BASED MODEL FOR THE CHEMICAL INTERACTIONS BETWEEN GEOTHERMAL ROCKS, SUPERCRITICAL CARBON DIOXIDE AND WATER$2,984,651
· FY2010 · Department of Energy
PALO ALTO RESEARCH CENTER, INC. (PARC) - NEW OPEN 2018 AWARD
CONTROL #: 1858-2979
PROJECT TITLE: ''HIGH-THROUGHPUT METHANE PYROLYSIS FOR LOW-COST, EMISSIONS-FREE HYDROGEN''
THE PALO ALTO RESEARCH CENTER (PARC) HAS PARTNERED WITH CABOT CORPORATION, GAS TECHNOLOGY INSTITUTE (GTI)AND STONY BROOK UNIVERSITY (SBU)TO DEVELOP A HIGH THROUGHPUT MOLTEN-METAL METHANE PYROLYSIS REACTOR THAT WOULD ENABLE EMISSIONS FREE H2 PRODUCTION AT A COST PARITY WITH AT-SCALE STEAM METHANE REFORMING.$2,728,075
· FY2019 · Department of Energy
GAS TO CARBON FIBER CRYSTALS (G2-CFX)$2,689,889
· FY2021 · Department of Energy
SCALABLE TRANSPARENT THERMAL BARRIERS FOR SINGLE-PANE WINDOW RETROFITS$2,679,574
· FY2017 · Department of Energy
SYSTEM OF PRINTED HYBRID INTELLIGENT NANO-CHEMICAL SENSORS (SPHINCS)$2,434,741
· FY2017 · Department of Energy
DE-EE0009682 PALO ALTO RESEARCH CENTER INCORPORATED
PROJECT -FIELD VALIDATION OF PACKAGED RAD-AC HVAC SYSTEM: EFFICIENCY AND LOAD SHIFTING VIA ELECTROCHEMICAL REGENERATION OF LIQUID DESICCANTS.$2,399,962
· FY2021 · Department of Energy
CO-EXTRUSION (COEX) FOR COST REDUCTION OF ADVANCED HIGH-ENERGY-AND-POWER BATTERY ELECTRODE MANUFACTURING$2,202,115
· FY2017 · Department of Energy
COLLABORATIVE OPTIMIZATION AND PLANNING FOR TRANSPORTATION ENERGY REDUCTION (COPTER)$2,177,717
· FY2017 · Department of Energy
THE GOAL OF THIS PROJECT IS TO DEVELOP A CERAMIC MATRIX COMPOSITE (CMC) FABRICATION METHOD TO PROVIDE LOW-COST CMC FOR CONCENTRATED SOLAR POWER (CSP) RECEIVERS RUNNING AT 800 *C OR EVEN HIGHER.
IN THIS PROJECT, A NOVEL CERAMIC MATRIX COMPOSITE (CMC) MANUFACTURING METHOD WILL BE DEVELOPED TO PRODUCE AFFORDABLE CMC BY ELIMINATING THE INFILTRATION PROCESS CURRENTLY USED IN CMC PRODUCTION. THE GREEN BODY OF THE CMC, CARBON FIBER REINFORCED PLASTIC, WILL BE MADE BY USING AN INNOVATIVE RESIN THAT IS FILLED WITH A HIGH CONTENT OF CERAMIC PARTICLES TO INCREASE ITS CERAMIC YIELD. THE GREEN BODY WILL THEN BE PYROLYZED TO FABRICATE CMCS AS DENSE AS CMC MADE WITH THE CONVENTIONAL INFILTRATION PROCESS.
THE FABRICATED CMCS WILL BE USED IN A CONCENTRATED SOLAR POWER (CSP) RECEIVER DESIGN TO IMPROVE ITS TOTAL SOLAR-TO-ELECTRIC EFFICIENCY BY ENABLING THE USE OF SUPERCRITICAL CO2 AS A HIGH EFFICIENCY WORKING FLUID WITH A HIGH WORKING TEMPERATURE OF >800 *C. A TECHNOECONOMIC ANALYSIS (TEA) WILL BE IMPLEMENTED TO EVALUATE THE CMC COMPONENT MANUFACTURING COST AND ITS RECEIVER CONSTRUCTION COST. THE RECEIVER CONSTRUCTION COST WILL BE COMPARED TO CONVENTIONAL METAL ALLOYS.
PARC’S CMC FABRICATION IS EXPECTED TO MAKE CMC SO AFFORDABLE THAT EVEN COST-SENSITIVE APPLICATIONS LIKE CSP CAN USE IT.$2,173,441
· FY2022 · Department of Energy
COMPACT FIELD-DEPLOYABLE FLOW CYTOMETER FOR RAPID BACTERIAL IDENTIFICATION AND QUANTITATION IN WATER$1,697,030
· FY2010 · Department of the Army
COMPACT DEEP-UV SEMICONDUCTOR LASER FOR CHEMICAL/BIOLOGICAL DETECTION/IDENTIFICATION$1,599,500
· FY2010 · Department of the Army
DE-OE0000872 PROJECT TITLE: TRANSENSOR: TRANSFORMER REAL-TIME ASSESSMENT INTELLIGENT SYSTEM WITH EMBEDDED NETWORK OF SENSORS AND OPTICAL READOUT$1,521,427
· FY2017 · Department of Energy
PARSE: PROBING ALLOYS FOR RAPID SORTING ELECTROCHEMICALLY$1,492,128
· FY2014 · Department of Energy
REFORMER-LESS OXYGEN-CONDUCTING NATURAL-GAS INTERMEDIATE-TEMPERATURE FUEL CELL BASED ON A NOVEL MEMBRANE (RONIN)$1,461,177
· FY2014 · Department of Energy
HEAT SENSOR - HARSH ENVIRONMENT ADAPTABLE THERMIONIC SENSOR$1,457,629
· FY2013 · Department of Energy
OXYGEN INTEGRATED UNIT FOR MODULAR BIOMASS CONVERSION TO HYDROGEN (OXYIUM)
THE OVERALL OBJECTIVE OF THE PROJECT IS TO DEVELOP AND TEST A SOLID SORBENT FOR REVERSIBLE OXYGEN CAPTURE THAT AIMS TO ACHIEVE HIGH EQUILIBRIUM OXYGEN, HIGH OXYGEN/NITROGEN SELECTIVITY, AND LOW COST.$1,249,999
· FY2023 · Department of Energy