Metal-Organic Framework-Based Nanomaterials for Energy Conversion and Storage
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Metal-Organic Framework-Based Nanomaterials for Energy Conversion and Storage
Gupta, Ram K.; Nguyen, Tuan Anh; Yasin, Ghulam
Elsevier - Health Sciences Division
05/2022
814
Mole
Inglês
9780323911795
15 a 20 dias
1650
Descrição não disponível.
Part I: Fundamentals 1. MOF-based nanostructures and nanomaterials for next-generation energy storage: an introduction 2. Recent advances in MOFs for electrochemical energy storage and conversion devices 3. Design and construction of MOF nanomaterials 4. Strategies to enhance the electrochemical properties of MOFs 5. Biological MOFs (bio-MOFs) for energy applications
Part II: Metal-Organic frameworks for fuel cells 6. MOF-based electrocatalysts for oxygen evolution reactions 7. Recent development in MOFs for oxygen evolution reactions 8. Effect of structural modifications on the oxygen reduction reaction properties of metal-organic framework-based catalysts 9. Metal organic framework-based nanomaterials as suitable electrocatalysts for evolution of hydrogen
Part III: Metal-organic frameworks for batteries 10. MOF nanomaterials for battery cathodes 11. MOFs and their derivatives for anode of high-performance rechargeable batteries 12. Polyoxometalate-based metal organic frameworks (POMOFs) for lithium-ion batteries 13. MOFs-based nanomaterials for metal-sulfur batteries 14. MOFs-based nanomaterials for metal-ion batteries 15. MOF-based nanomaterials for zinc-based battery cathodes 16. MOF-based electrolytes for battery applications
Part IV: Metal-organic frameworks for supercapacitors 17. Recent development in MOFs for supercapacitor applications 18. MOFsemetal oxides/sulfides/phoshides nanocomposites for supercapacitors 19. MOFs-carbon nanocomposites for supercapacitors 20. Flexible supercapacitors based on nanocomposites of MOFs 21. Other nanocomposites of MOFs for supercapacitors
Part V: Metal-organic frameworks for photovoltaics 22. MOFs-based dye-sensitized photovoltaics 23. Recent development in MOFs for perovskite-based solar cells 24. Integrating MOFs into dye-sensitized solar cells 25. Integrating MOFs into dye-sensitized solar cells
Part VI: Metal-organic frameworks for fuel/gas storage 26. MOFs for hydrogen storage 27. Multicriteria decision making in organic-metal frameworks for fuel storage 28. Current development in MOFs for hydrogen storage: a mechanistic investigation 29. MOFs for solar photochemistry applications
Part VII: Metal-organic franeworks for other applications 30. Metal-organic frameworks for nanogenerators 31. MOF-based photocatalysts for hydrogen generation by water splitting 32. Metal-organic framework for photocatalytic reduction of carbon dioxide 33. MOF-based advanced nanomaterials for electrocatalysis applications
Part II: Metal-Organic frameworks for fuel cells 6. MOF-based electrocatalysts for oxygen evolution reactions 7. Recent development in MOFs for oxygen evolution reactions 8. Effect of structural modifications on the oxygen reduction reaction properties of metal-organic framework-based catalysts 9. Metal organic framework-based nanomaterials as suitable electrocatalysts for evolution of hydrogen
Part III: Metal-organic frameworks for batteries 10. MOF nanomaterials for battery cathodes 11. MOFs and their derivatives for anode of high-performance rechargeable batteries 12. Polyoxometalate-based metal organic frameworks (POMOFs) for lithium-ion batteries 13. MOFs-based nanomaterials for metal-sulfur batteries 14. MOFs-based nanomaterials for metal-ion batteries 15. MOF-based nanomaterials for zinc-based battery cathodes 16. MOF-based electrolytes for battery applications
Part IV: Metal-organic frameworks for supercapacitors 17. Recent development in MOFs for supercapacitor applications 18. MOFsemetal oxides/sulfides/phoshides nanocomposites for supercapacitors 19. MOFs-carbon nanocomposites for supercapacitors 20. Flexible supercapacitors based on nanocomposites of MOFs 21. Other nanocomposites of MOFs for supercapacitors
Part V: Metal-organic frameworks for photovoltaics 22. MOFs-based dye-sensitized photovoltaics 23. Recent development in MOFs for perovskite-based solar cells 24. Integrating MOFs into dye-sensitized solar cells 25. Integrating MOFs into dye-sensitized solar cells
Part VI: Metal-organic frameworks for fuel/gas storage 26. MOFs for hydrogen storage 27. Multicriteria decision making in organic-metal frameworks for fuel storage 28. Current development in MOFs for hydrogen storage: a mechanistic investigation 29. MOFs for solar photochemistry applications
Part VII: Metal-organic franeworks for other applications 30. Metal-organic frameworks for nanogenerators 31. MOF-based photocatalysts for hydrogen generation by water splitting 32. Metal-organic framework for photocatalytic reduction of carbon dioxide 33. MOF-based advanced nanomaterials for electrocatalysis applications
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Nanoarchitectures; Al-S batteries; Anode materials; Batteries; BET; Bio-MOFs; Catalytic conversion; Catalytic stability; Cathode materials; Cathodes; Chromophore; Clean energy; CNTs; Composite; Conductivity; Conversion; Coordination; Counter electrode; Counterelectrode; Crystal structure; Data analysis; DFT; Double perovskite; Dye sensitized solar cell; Dye-sensitized photovoltaics; Electrocatalysis; Electrocatalyst; Electrocatalysts; Electrochemical applications; Electrochemical properties; Electrode; Electrodes; Electrolyte; Electrolytes; Energy conversion; Energy density; Energy industry; Energy storage devices; Energy storage; Environmental remediation; Flexible supercapacitors; Fuel cells; Fuel storage; Future perspectives; Graphene; Hydrgen storage; Hydrogen adsorbents; Hydrogen evolution; Hydrogen storage; Hydrogen; Interlayer; Li-S Batteries; Ligand; Lithium-ion batteries; Low-dimensional perovskite; Machine learning; Mechanical energy; Metal organic framework; Metal organic frameworks; Metal oxides; Metal particles; Metal-air batteries; Metal-ion batteries; Metal-organic framework; Metal-organic frameworks (MOFs)Zn-air batteries; Metal-organic frameworks; Metal-sulfur batteries; Methane; Mg-S batteries; Micro and mesoporous; Modified separator; MOF architecture; MOF composites; MOF; MOFs; MOFs-derived composites; Molecular modeling; Na-S batteries; Nanocomposites; Nanomaterials; Nanoparticles; Nanorods; Nanosensors; Nanosheets; Overpotential; Oxygen evolution reaction; Oxygen evolution reactions; Oxygen reduction reaction; Perovskite; Photoanode; Photocatalysis; Photocatalyst; Photochemistry application; Physisorption; Piezoelectric nanogenerator; Polymers; Polyoxometalates based MOFs; Polyoxometalates; Polysilane; Polysulfide shuttling; Porosity; Porous; Porphyrin; Pseudocapacitors; Rechargeable batteries; Rechargeable metal-sulfur batteries; Redox-activity; Reduction; Renewable energy; Rietveld analysis; Sensitizer; Sodium-ion batteries; Solar cells; Sorption; Spectrum; Storage; Structural modification; Supercapacitors; Suprecapacitors; Sustainable and clean energy; Synergistic effect; Synthesis methods; Transmission electron microscopy; Triboelectric nanogenerator; Water splitting; Working electrode; X-ray diffraction; Zn-ion batteries
Part I: Fundamentals 1. MOF-based nanostructures and nanomaterials for next-generation energy storage: an introduction 2. Recent advances in MOFs for electrochemical energy storage and conversion devices 3. Design and construction of MOF nanomaterials 4. Strategies to enhance the electrochemical properties of MOFs 5. Biological MOFs (bio-MOFs) for energy applications
Part II: Metal-Organic frameworks for fuel cells 6. MOF-based electrocatalysts for oxygen evolution reactions 7. Recent development in MOFs for oxygen evolution reactions 8. Effect of structural modifications on the oxygen reduction reaction properties of metal-organic framework-based catalysts 9. Metal organic framework-based nanomaterials as suitable electrocatalysts for evolution of hydrogen
Part III: Metal-organic frameworks for batteries 10. MOF nanomaterials for battery cathodes 11. MOFs and their derivatives for anode of high-performance rechargeable batteries 12. Polyoxometalate-based metal organic frameworks (POMOFs) for lithium-ion batteries 13. MOFs-based nanomaterials for metal-sulfur batteries 14. MOFs-based nanomaterials for metal-ion batteries 15. MOF-based nanomaterials for zinc-based battery cathodes 16. MOF-based electrolytes for battery applications
Part IV: Metal-organic frameworks for supercapacitors 17. Recent development in MOFs for supercapacitor applications 18. MOFsemetal oxides/sulfides/phoshides nanocomposites for supercapacitors 19. MOFs-carbon nanocomposites for supercapacitors 20. Flexible supercapacitors based on nanocomposites of MOFs 21. Other nanocomposites of MOFs for supercapacitors
Part V: Metal-organic frameworks for photovoltaics 22. MOFs-based dye-sensitized photovoltaics 23. Recent development in MOFs for perovskite-based solar cells 24. Integrating MOFs into dye-sensitized solar cells 25. Integrating MOFs into dye-sensitized solar cells
Part VI: Metal-organic frameworks for fuel/gas storage 26. MOFs for hydrogen storage 27. Multicriteria decision making in organic-metal frameworks for fuel storage 28. Current development in MOFs for hydrogen storage: a mechanistic investigation 29. MOFs for solar photochemistry applications
Part VII: Metal-organic franeworks for other applications 30. Metal-organic frameworks for nanogenerators 31. MOF-based photocatalysts for hydrogen generation by water splitting 32. Metal-organic framework for photocatalytic reduction of carbon dioxide 33. MOF-based advanced nanomaterials for electrocatalysis applications
Part II: Metal-Organic frameworks for fuel cells 6. MOF-based electrocatalysts for oxygen evolution reactions 7. Recent development in MOFs for oxygen evolution reactions 8. Effect of structural modifications on the oxygen reduction reaction properties of metal-organic framework-based catalysts 9. Metal organic framework-based nanomaterials as suitable electrocatalysts for evolution of hydrogen
Part III: Metal-organic frameworks for batteries 10. MOF nanomaterials for battery cathodes 11. MOFs and their derivatives for anode of high-performance rechargeable batteries 12. Polyoxometalate-based metal organic frameworks (POMOFs) for lithium-ion batteries 13. MOFs-based nanomaterials for metal-sulfur batteries 14. MOFs-based nanomaterials for metal-ion batteries 15. MOF-based nanomaterials for zinc-based battery cathodes 16. MOF-based electrolytes for battery applications
Part IV: Metal-organic frameworks for supercapacitors 17. Recent development in MOFs for supercapacitor applications 18. MOFsemetal oxides/sulfides/phoshides nanocomposites for supercapacitors 19. MOFs-carbon nanocomposites for supercapacitors 20. Flexible supercapacitors based on nanocomposites of MOFs 21. Other nanocomposites of MOFs for supercapacitors
Part V: Metal-organic frameworks for photovoltaics 22. MOFs-based dye-sensitized photovoltaics 23. Recent development in MOFs for perovskite-based solar cells 24. Integrating MOFs into dye-sensitized solar cells 25. Integrating MOFs into dye-sensitized solar cells
Part VI: Metal-organic frameworks for fuel/gas storage 26. MOFs for hydrogen storage 27. Multicriteria decision making in organic-metal frameworks for fuel storage 28. Current development in MOFs for hydrogen storage: a mechanistic investigation 29. MOFs for solar photochemistry applications
Part VII: Metal-organic franeworks for other applications 30. Metal-organic frameworks for nanogenerators 31. MOF-based photocatalysts for hydrogen generation by water splitting 32. Metal-organic framework for photocatalytic reduction of carbon dioxide 33. MOF-based advanced nanomaterials for electrocatalysis applications
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Nanoarchitectures; Al-S batteries; Anode materials; Batteries; BET; Bio-MOFs; Catalytic conversion; Catalytic stability; Cathode materials; Cathodes; Chromophore; Clean energy; CNTs; Composite; Conductivity; Conversion; Coordination; Counter electrode; Counterelectrode; Crystal structure; Data analysis; DFT; Double perovskite; Dye sensitized solar cell; Dye-sensitized photovoltaics; Electrocatalysis; Electrocatalyst; Electrocatalysts; Electrochemical applications; Electrochemical properties; Electrode; Electrodes; Electrolyte; Electrolytes; Energy conversion; Energy density; Energy industry; Energy storage devices; Energy storage; Environmental remediation; Flexible supercapacitors; Fuel cells; Fuel storage; Future perspectives; Graphene; Hydrgen storage; Hydrogen adsorbents; Hydrogen evolution; Hydrogen storage; Hydrogen; Interlayer; Li-S Batteries; Ligand; Lithium-ion batteries; Low-dimensional perovskite; Machine learning; Mechanical energy; Metal organic framework; Metal organic frameworks; Metal oxides; Metal particles; Metal-air batteries; Metal-ion batteries; Metal-organic framework; Metal-organic frameworks (MOFs)Zn-air batteries; Metal-organic frameworks; Metal-sulfur batteries; Methane; Mg-S batteries; Micro and mesoporous; Modified separator; MOF architecture; MOF composites; MOF; MOFs; MOFs-derived composites; Molecular modeling; Na-S batteries; Nanocomposites; Nanomaterials; Nanoparticles; Nanorods; Nanosensors; Nanosheets; Overpotential; Oxygen evolution reaction; Oxygen evolution reactions; Oxygen reduction reaction; Perovskite; Photoanode; Photocatalysis; Photocatalyst; Photochemistry application; Physisorption; Piezoelectric nanogenerator; Polymers; Polyoxometalates based MOFs; Polyoxometalates; Polysilane; Polysulfide shuttling; Porosity; Porous; Porphyrin; Pseudocapacitors; Rechargeable batteries; Rechargeable metal-sulfur batteries; Redox-activity; Reduction; Renewable energy; Rietveld analysis; Sensitizer; Sodium-ion batteries; Solar cells; Sorption; Spectrum; Storage; Structural modification; Supercapacitors; Suprecapacitors; Sustainable and clean energy; Synergistic effect; Synthesis methods; Transmission electron microscopy; Triboelectric nanogenerator; Water splitting; Working electrode; X-ray diffraction; Zn-ion batteries
