← LeaderboardsInvestigatorsiAttributed = a PI's even-split share of each grant — a $1M grant with 2 PIs counts $500K each.
Osmoses Inc.
Cambridge, MA
$7,203,586
Total funding
4
Grants
Funding over time
peak $5.2M · FY2022–25$10M$7.5M$5M$2.5M$0
'22
'23
'24
'25
Funding mix
By agency
DOE$6,949,771 · 3
NSF$253,815 · 1
By mechanism
—$7,203,586 · 4
Investigators at Osmoses Inc.
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
OSMOSES, INC.
CONTROL NUMBER 3387-1656
PROJECT TITLE ''HARNESSING GHG-FREE GEOLOGIC HYDROGEN TO HARVEST NEW HELIUM SOURCES IN THE UNITED STATES''
VISION OPEN 2024
THIS PROJECT WILL DEMONSTRATE A FIRST-OF-A-KIND, SCALABLE, AND FLEXIBLE PROCESS TO CAPTURE HELIUM FROM U.S. WELL SITES BY LEVERAGING GHG-FREE COMBUSTION OF CO-EXTRACTED GEOLOGIC HYDROGEN TO POWER A NOVEL SEPARATION PROCESS.$5,199,776
· FY2025 · Department of Energy
OPTIMIZATION AND SCALE-UP OF MOLECULAR-SIEVE MEMBRANES WITH RECORD AIR SEPARATION PERFORMANCE
THE OVERARCHING OBJECTIVE OF THIS PROJECT IS TO DEVELOP A NOVEL MEMBRANE SYSTEM FROM POLYMER COMPOSITION THAT IS CAPABLE OF PRODUCING ENRICHED OXYGEN FROM AIR FOR INTEGRATION INTO MODULAR GASIFICATION SYSTEMS FOR LOW-COST HYDROGEN PRODUCTION.$1,249,997
· FY2023 · Department of Energy
OSMOSES INC.: NEW SEED SBIR AWARD.
CONTROL NUMBER: 1954-1859
PROJECT TITLE: EFFICIENT RECOVERY OF DILUTE HELIUM GAS USING PROCESSIBLE POLYMER SIEVE MEMBRANES
OSMOSES INC. PROPOSES TO ADDRESS VULNERABILITY IN THE U.S. SUPPLY CHAIN THROUGH THE DEVELOPMENT OF A NOVEL FAMILY OF ULTRA-PERMEABLE AND ULTRA-SELECTIVE POLYMER MEMBRANES THAT CAN EFFICIENTLY CAPTURE DILUTE SOURCES OF HELIUM FROM FEEDSTOCKS THAT ARE OTHERWISE WASTED.$499,998
· FY2022 · Department of Energy
SBIR Phase I: Optimization and scaling of ladder polymers for membrane-based gas separations$253,815
· FY2023 · TIP