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Fluorophore-Doped Metal-Organic Frameworks for Quantifying Low-Energy Radionuclides in Aqueous Solutions
This technology represents a new class of scintillation materials based on metal organic frameworks (MOFs), highly crystalline and tunable structures, which may provide higher detection efficiency compared to other particle scintillation materials. Furthermore, the use of fluorophores with these MOFs paves the way for more versatile applications in...
Published: 4/10/2024
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Inventor(s): Craig Aspinwall, Chen-Yi Ke, Brian Zacher
Keywords(s):
Category(s): Technology Classifications > Agriculture & Horticulture > Agricultural Engineering, Technology Classifications > Energy, Cleantech & Environmental > Remediation, Technology Classifications > Materials > Chemicals, Technology Classifications > Research Tools > Screening assays, Technology Classifications > Sensors & Controls > Particle & Radiation
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Novel Multi-Omics Aging Clock
A multi-omics clock analyzes multiple layers of omics data with machine learning to predict remaining lifespan of mammals, particularly for animal model studies. Large omics data sets may be used from combinations of genomics, proteomics, lipids, etc. available from blood or other simple sample collection. This tool can robustly capture changes...
Published: 3/12/2024
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Inventor(s): George Sutphin, Samuel Freitas, Megha Padi, Chen Chen
Keywords(s):
Category(s): Technology Classifications > Life Sciences > Biomarkers, Technology Classifications > Research Tools > Animal Models, Technology Classifications > Research Tools > Screening assays, Technology Classifications > Research Tools > Simulators and Modeling Tools
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Metal Organic Frameworks for Scintillation Detection of Low Energy Radionuclides
Scintillating metal-organic framework (MOF) particles provide enhanced and robust low-energy β emission sensing in aqueous systems. In addition to being stable and dispersive in aqueous solutions, the scintillating -MOFs are stable and functional in a wide range of organic and aqueous-organic systems and uniquely allow control of excitonic transport...
Published: 3/12/2024
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Inventor(s): Craig Aspinwall, Chen-Yi Ke, Minhui Han, Brian Zacher
Keywords(s):
Category(s): Technology Classifications > Materials > Nanomaterials, Technology Classifications > Materials > Chemicals, Technology Classifications > Research Tools > Screening assays, Technology Classifications > Research Tools > Reagents, Technology Classifications > Medical Devices > Diagnostic
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