Sort
38,696 grants matching “als”
Immunology of aging and immunotherapy of aging-associated diseases
$1,226,456Arya Biragyn · National Institute On Aging · ZIA · FY2022 · AG
A "Trojan Horse" bispecific antibody strategy for broad filovirus therapeutics
$1,226,238Kartik Chandran · Albert Einstein College Of Medicine · R01 · FY2020 · AI
Social Processing and Neural Plasticity
$1,225,798David A Leopold · National Institute Of Mental Health · ZIA · FY2022 · MH
The Neural Basis of Functional MRI Responses
$1,225,798David A Leopold · National Institute Of Mental Health · ZIA · FY2022 · MH
Neuroprotective role of GLP-1 receptor agonists (Neurodegenerative disorders & Alzheimer's disease)
$1,225,528Nigel H. Greig · National Institute On Aging · ZIA · FY2023 · AG
Mechanisms of Viral Pathogenesis in the Central Nervous System
$1,225,290Karin Peterson · National Institute Of Allergy And Infectious Diseases · ZIA · FY2017 · AI
Pharmacology And Physiology Of The Substantia Nigra And Basal Ganglia
$1,225,098Judith Richmon Walters · National Institute Of Neurological Disorders And Stroke · ZIA · FY2018 · NS
Neuronal avalanches in the neocortex
$1,224,947Dietmar Plenz · National Institute Of Mental Health · ZIA · FY2012 · MH
Comparative Genomics Analysis Unit Research
$1,224,515James C Mullikin · National Human Genome Research Institute · ZIA · FY2017 · HG
Molecular Biology: Viral Glial Gene Interaction in Brain
$1,224,408Temple University · P01 · FY2005 · NS
Lymphoma Disease Discovery and Definition
$1,224,381Elaine Jaffe · Division Of Clinical Sciences - Nci · ZIA · FY2014 · CA
Comparative Genomics Analysis Unit Research
$1,223,958James C Mullikin · National Human Genome Research Institute · ZIA · FY2015 · HG
AL-ALI (UNIVERSITY OF MIAMI, SCHOOL OF MEDICINE) - MCSP - EXPLORATORY CHEMISTRY (EC)
$1,223,763Keith Barnes · Albany Molecular Research, Inc. · N01 · FY2023 · DA
Development of a Microphysiological Organ-on-Chip System to Model Amyotrophic
$1,223,655Clive Niels Svendsen · Cedars-Sinai Medical Center · UG3 · FY2017 · NS
Brain Imaging And Modeling
$1,223,579Barry Horwitz · National Institute On Deafness And Other Communication Disorders · ZIA · FY2014 · DC
Southeast Center for Agricultural Health and Injury Prevention: Enteric bacteria, antibiotic resistance and farm worker health on livestock farms
$1,222,636Wayne T. Sanderson · University Of Kentucky · U54 · FY2023 · OH
HCC: Medium: Removing Barriers to the Practical Use of Non-Invasive Brain-Computer Interfaces
$1,222,325Charles W Anderson · Colorado State University · · FY2011 · CSE
Neural Substrates for Visual Decision Making in the Visual Cortex
$1,221,731Hendrikje Nienborg · National Eye Institute · ZIA · FY2022 · EY
Molecular Genetic Study of Stem Cells, Cancer Stem Cells, and Stem Cell Aging
$1,221,648Xianyu S Hou · Division Of Basic Sciences - Nci · ZIA · FY2010 · CA
Comparative Mammalian Genomics
$1,221,136Elaine Ostrander · National Human Genome Research Institute · ZIA · FY2018 · HG
Finding Genes for Human Prostate Cancer
$1,221,136Elaine Ostrander · National Human Genome Research Institute · ZIA · FY2018 · HG
Resources for X-ray Tomography of Whole Cells
$1,220,907University Of California San Francisco · P41 · FY2005 · RR
The Role of Wnt Genes in Vertebrate Development and Cancer
$1,220,801Terence Yamaguchi · Division Of Basic Sciences - Nci · ZIA · FY2012 · CA
Epigenome Interactions in Complex Neurogenetic Disorders
$1,219,985Margaret Elizabeth Ross · Weill Medical Coll Of Cornell Univ · R01 · FY2012 · NS
RENSSELAER POLYTECHNIC INSTITUTE (RPI), IN COLLABORATION WITH THE DOE AMES LABORATORY (AMESLAB), IOWA STATE UNIVERSITY (ISU) AND GENERAL ELECTRIC RESEARCH (GE), PROPOSE A 3-YEARS PROGRAM TO DEVELOP A NEW CLASS OF TEMPERATURE RESISTANT AL-CE-BASED ALLOYS FOR APPLICATIONS IN THE AEROSPACE INDUSTRY. THESE ALLOYS WILL HAVE TOUGHNESS, STRENGTH AND FATIGUE RESISTANCE AT ROOM TEMPERATURE SIMILAR TO THE BEST ALUMINUM ALLOYS CURRENTLY IN USE FOR AIRFRAME COMPONENTS, BUT WILL EXHIBIT SIGNIFICANTLY ENHANCED RETENTION OF MECHANICAL PROPERTIES UPON EXPOSURE TO ELEVATED TEMPERATURES. THIS WILL ALLOW APPLICATIONS OF THESE LIGHT ALUMINUM ALLOYS IN SUPERSONIC AIRCRAFT DESIGN. THIS PROGRAM WILL CONSIDER A BROAD RANGE OF MATERIAL COMPOSITIONS, INCLUDING BINARY AL-CE, TERNARY AL-CE-MG AND QUATERNARY AL-CE-MG-ZN AND AL-CE-MG-ZR ALLOYS, AS WELL AS AL-CE-MG REINFORCED WITH SIC OR AL2O3 NANOPARTICLES. THE ALLOY COMPOSITIONS WILL BE SELECTED THROUGH A HIGH THROUGHPUT SCREENING PROCEDURE. ALL MATERIALS WILL BE SUBJECTED TO THERMOMECHANICAL PROCESSING DESIGNED TO REFINE THE MICROSTRUCTURE AND TO PRODUCE A FINE DISPERSION OF INTERMETALLIC DISPERSOIDS, WHICH WILL ENSURE HIGH STRENGTH, HIGH FATIGUE RESISTANCE AND ENHANCED PROPERTY RETENTION UPON EXPOSURE TO ELEVATED TEMPERATURES. AN AMPLE PROGRAM OF TESTING UNDER MONOTONIC AND CYCLIC LOADING WILL BE UNDERTAKEN AND THE RESULTS WILL BE USED TO GUIDE FURTHER MATERIAL AND PROCESS DEVELOPMENT. THE DATA WILL BE USED TO DEVELOP AND CALIBRATE MODELS DESCRIBING THE MATERIAL BEHAVIOR UNDER MONOTONIC AND FATIGUE LOADING, AND CRITICAL CONDITIONS FOR CRACK NUCLEATION. THE MODELS WILL BE REPRESENTATIVE FOR THE ENSEMBLE OF THE EXPERIMENTAL DATA OBTAINED AND WILL BE AVAILABLE FOR USE IN AIRCRAFT COMPONENT DESIGN. SUPERSONIC FLIGHT CAUSES SIGNIFICANT TEMPERATURE INCREASE OF THE AIRFRAME DUE TO AERODYNAMIC FRICTION. ALUMINUM ALLOYS CURRENTLY USED IN SUBSONIC AIRCRAFT DESIGN CANNOT WITHSTAND SUCH ELEVATED TEMPERATURES AND THEREFORE, OTHER, HEAVIER MATERIALS ARE CURRENTLY SELECTED FOR SUPERSONIC AIRCRAFT. THE PROPOSED ALLOYS WILL MAKE POSSIBLE USING LIGHT ALUMINUM FOR SOME COMPONENTS OF THE AIRFRAME, WHICH WILL LEAD TO WEIGHT REDUCTION, ASSOCIATED FUEL SAVINGS AND REDUCTION OF CO2 EMISSIONS. THE PROPOSED TECHNOLOGY IS ESTIMATED TO REDUCE THE WEIGHT OF THE AIRFRAME BY 2%, WHICH TRANSLATES IN A REDUCTION OF 575,000 GALLONS OF JET FUEL, OR 5,100 METRIC TONS OF CO2 EMISSIONS OVER THE LIFETIME OF THE AIRCRAFT. THE PROGRAM PROPOSED WILL ADVANCE THE TECHNOLOGY READINESS LEVEL FROM 2 TO 4.
$1,219,910Rensselaer Polytechnic Institute · · FY2022 · Department of Energy