The following programs are available to U.S. Scholars in Egypt
Code
EG
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Grant
Ex Vivo and Vivo Evaluating the Anti-pancreatic Cancer Efficacy of Novel Nanoformulation of Diethyldithiocarbamate-cuprous Oxide: Targeting Cancer Stem Cells and Stellate Cells
Ex Vivo and Vivo Evaluating the Anti-pancreatic Cancer Efficacy of Novel Nanoformulation of Diethyldithiocarbamate-cuprous Oxide: Targeting Cancer Stem Cells and Stellate Cells
Grant
Novel Dual Z-scheme/Full-spectrum Responsive G-C3N4-BP/RP Heterojunction-Modified PVDF Membrane for Photocatalytic Degradation of Micropollutants
Novel Dual Z-scheme/Full-spectrum Responsive G-C3N4-BP/RP Heterojunction-Modified PVDF Membrane for Photocatalytic Degradation of Micropollutants
Grant
Multiuse Enhanced Metal-Organic Frameworks (MOFs) as Sensor and Nano-Collector for Water Treatment
Multiuse Enhanced Metal-Organic Frameworks (MOFs) as Sensor and Nano-Collector for Water Treatment
Grant
Development of an Enzymatic Biofuel Cell as a New Energy Source Using Immobilized Laccase Enzyme
Development of an Enzymatic Biofuel Cell as a New Energy Source Using Immobilized Laccase Enzyme
Grant
Self-Use Iontophoretic Drug Delivery Devices: Design and Predicative Computational Simulation for Optimal Individualized Drug Delivery
Self-Use Iontophoretic Drug Delivery Devices: Design and Predicative Computational Simulation for Optimal Individualized Drug Delivery
Grant
Collection Management and Documentation Practices in Egyptian Museums a Comparative Study
Collection Management and Documentation Practices in Egyptian Museums a Comparative Study
Grant
Proposed Model for Ensuring the Sustainability of Egyptian Intangible Cultural Heritage - An Applied Study on Handicraft Clusters
Proposed Model for Ensuring the Sustainability of Egyptian Intangible Cultural Heritage - An Applied Study on Handicraft Clusters
Grant
Integration of Sedimentology, Stratigraphy and Petrophysics Supported by Machine Learning to Evaluate and Predict Miocene Reservoir Architecture and Deliverability in Gulf of Suez and Northern Red Sea Rifts
Integration of Sedimentology, Stratigraphy and Petrophysics Supported by Machine Learning to Evaluate and Predict Miocene Reservoir Architecture and Deliverability in Gulf of Suez and Northern Red Sea Rifts