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1,049,261 grants matching “t cell”
HIV Active and Passive Clinical Material Manufacturing
$5,000,000David Heimbrook · Leidos Biomedical Research, Inc. · N01 · FY2014 · CA
Endowment Disparities Research Meharry Medical College
$5,000,000Meharry Medical College · S21 · FY2003 · MD
NSF-Simons Center for Quantitative Biology
$5,000,000Richard W Carthew · Northwestern University · · FY2018 · MPS
NDC for the Optical Control of Biological Function
$5,000,000Ehud Isacoff · University Of California Berkeley · PN2 · FY2012 · EY
Global Centers: Reliable and Scalable Biofoundries for Biomanufacturing and Global Bioeconomy
$5,000,000Huimin Zhao · University Of Illinois At Urbana-Champaign · · FY2024 · O/D
CREST Center for Biological Signatures and Sensing (BioSS) Phase II
$5,000,000Arnold Burger · Fisk University · · FY2021 · EDU
Coordinating Center for Beta Cell Biology Consortium
$5,000,000Mark A Magnuson · Vanderbilt University · U01 · FY2009 · DK
ITR: Center for Computational Biophysics
$5,000,000Herbert Levine · University Of California-San Diego · · FY2002 · MPS
Biophysics of Nuclear Condensates
$5,000,000Arup K Chakraborty · Massachusetts Institute Of Technology · · FY2021 · BIO
Stem Cell Translation Laboratory (SCTL)
$5,000,000Anton Simeonov · National Center For Advancing Translational Sciences · ZIA · FY2018 · TR
FIBR : The Evolution of Biological Social Systems
$5,000,000David C Queller · William Marsh Rice University · · FY2003 · BIO
Endowment Disparities Research Meharry Medical College
$5,000,000Meharry Medical College · S21 · FY2004 · MD
Broad Institute Comprehensive Screening Center
$5,000,000Stuart L Schreiber · Broad Institute, Inc. · U54 · FY2012 · HG
NDC for the Optical Control of Biological Function
$5,000,000Ehud Isacoff · University Of California Berkeley · PN2 · FY2011 · EY
Bioenergy Center
$4,999,997Abolghasem Shahbazi · North Carolina Agricultural & Technical State University · · FY2018 · EDU
THIS PROJECT WILL FOCUS ON ACHIEVING THE DOE ELECTROLYZER PROTON EXCHANGE MEMBRANE (PEM) PERFORMANCE TARGET OF 3.0 A/ CM2 AT 1.8V BY OPTIMIZING OUR NON-PERFLUOROSULFONIC ACID (NON-PFSA) IONOMER MOLECULAR ARCHITECTURE AND MEMBRANE DESIGN TO ACHIEVE SAFE, LOW-COSTPRODUCTION OF HYDROGEN IN COMPONENT OPTIMIZED COMMERCIAL ELECTROLYZER CELLS OPERATING AT 30 BAR PRESSURE WITH A PERFORMANCE LOSS OF <2.3 MV OVER 1000 HRS. THIS WORK WILL BUILD ESSENTIAL FUNDAMENTAL UNDERSTANDING OF THE EFFECTS OF MORPHOLOGY ON PERFORMANCE AND DURABILITY AND THE INTERFACE INTERACTIONS BETWEEN CURRENT STATE OF THE ART ELECTROLYZER MEMBRANE ELECTRODE ASSEMBLY (MEA) AND CELL COMPONENTS WITH NON-PFSA BASED MEMBRANES. PROCESS DEVELOPMENT WILL ENSURE SCALABLE IONOMER SYNTHESIS AND MEMBRANE PRODUCTION PROCEDURES ARE IN PLACE TO ENABLE COMMERCIALIZATION.
$4,999,994Tetramer Technologies Llc · · FY2025 · Department of Energy
OTHER FUNCTIONS: N01DA-14-7789 NIDA CENTER FOR GENETIC STUDIES TASK ORDER 2; FY14- POP 4/30/2014 - 4/29/2015.
$4,999,812Jay Tischfield · Rutgers, The State Univ Of N.J. · N01 · FY2017 · DA
Cancer Center Support
$4,999,480University Of Pittsburgh At Pittsburgh · P30 · FY2004 · CA
A vascularized 3D biomimetic for islet function and physiology
$4,999,418Ben Z Stanger · University Of Pennsylvania · UC4 · FY2014 · DK
The Center for HIV RNA Studies (CRNA)
$4,998,988Alice Telesnitsky · University Of Michigan At Ann Arbor · U54 · FY2020 · AI
The Center for HIV RNA Studies (CRNA)
$4,998,988Alice Telesnitsky · University Of Michigan At Ann Arbor · U54 · FY2021 · AI
CENTER FOR HIGH-THROUGHPUT MINIMALLY-INVASIVE DOSIMETRY
$4,998,496Columbia University Health Sciences · U19 · FY2005 · AI
Extending the Florida Pathways 2 Success Partnership to Increase Engagement, Retention, and Success of Low-income Undergraduate and Graduate Students
$4,998,484Jennifer C Drew · University Of Florida · · FY2024 · EDU
Delaney AIDS Research Enterprise to Cure HIV
$4,998,394Steven Grant Deeks · University Of California, San Francisco · UM1 · FY2025 · AI
THE OVERALL OBJECTIVE IS TO FABRICATE AND ELECTROCHEMICALLY EVALUATE BUTTON CELLS AND 100 CM2 CELLS THAT MEET AND EXCEED DOE TARGETS (CURRENT DENSITIES IN EXCESS OF 1.2 A/CM2 AT CELL VOLTAGES OF 1.28 V AND OPERATING TEMPERATURE OF 750OC AND DEGRADATION RATE BELOW OF NO MORE THAN 0.5%/KHH) USING AN EXPERIMENTAL AND COMPUTATIONAL APPROACH. SPECIFICALLY, WE WILL: 1) BUILD NEXT GENERATION OXYGEN ELECTRODES WITH HIGH PERFORMANCE AND MINIMAL DEGRADATION FEATURING RARE-EARTH NICKELATE R-P PHASES, 2) IMPLEMENT OXYGEN AND FUEL ELECTRODE INFILTRATION STRATEGIES TO LOWER POLARIZATION RESISTANCE AND SUPPRESS CELL DEGRADATION, 3) IMPLEMENT STRATEGIES TO ACHIEVE BARRIER-LESS CELLS THROUGH A COMBINATION OF ALTERNATE ELECTRODE SCAFFOLDINGS, INFILTRATION, AND MODIFIED PROCESS CONDITIONS 4) REVERSE CELL DEGRADATION BY OPERATING CELL FOR SHORT DURATIONS IN SOFC MODE, 5) APPLY BUTTON CELL ADVANCEMENTS TO 100 CM2 CELLS, AND TEST THEM, 6) BUILD AND TEST A SHORT STACK BASED ON THE 100 CM2 CELLS, AND 7) IMPLEMENT THE COMMUNITY BENEFIT PLANS, 8) PRESENT OUR RESEARCH RESULTS AT ELECTROCHEMICAL SOCIETY AND TMS PROFESSIONAL SOCIETY MEETINGS.
$4,998,365Trustees Of Boston University · · FY2025 · Department of Energy