Nanomaterials for Energy Applications (eBook, ePUB)
Redaktion: Sundar, L. Syam; Djavanroodi, Faramarz; Feroz, Shaik
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Nanomaterials for Energy Applications (eBook, ePUB)
Redaktion: Sundar, L. Syam; Djavanroodi, Faramarz; Feroz, Shaik
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Nanomaterials for Energy Applications provides readers with an in-depth understanding of advanced nanomaterials and their applications in energy generation and utilization concepts. It focuses on emerging nanomaterials and applications in various energy-related fields.
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Nanomaterials for Energy Applications provides readers with an in-depth understanding of advanced nanomaterials and their applications in energy generation and utilization concepts. It focuses on emerging nanomaterials and applications in various energy-related fields.
Dieser Download kann aus rechtlichen Gründen nur mit Rechnungsadresse in A, B, BG, CY, CZ, D, DK, EW, E, FIN, F, GR, HR, H, IRL, I, LT, L, LR, M, NL, PL, P, R, S, SLO, SK ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis
- Seitenzahl: 330
- Erscheinungstermin: 1. Dezember 2023
- Englisch
- ISBN-13: 9781000989816
- Artikelnr.: 68997606
- Verlag: Taylor & Francis
- Seitenzahl: 330
- Erscheinungstermin: 1. Dezember 2023
- Englisch
- ISBN-13: 9781000989816
- Artikelnr.: 68997606
L. Syam Sundar is a researcher at Prince Mohammed Bin Fahd University, Saudi Arabia. Sundar obtained his doctorate in the field of Energy Systems from Jawaharlal Nehru Technological University, India and was a postdoc Research Fellow at University of Aveiro. Shaik Feroz is a professor at Prince Mohammed Bin Fahd University, Saudi Arabia. Feroz obtained his doctorate in the field of Chemical Engineering from Andhra University, India and was a postdoc Research Fellow at Leibniz University, Germany. Faramarz Djavanroodi received his Ph.D. from Imperial College, London and is the Chair of the Mechanical Engineering Department and Director of Patent Office at Prince Mohammad Bin Fahd University, Saudi Arabia.
1. Introduction. 2. Nanomaterials for Solar Cells. 3. Two-Dimensional and
Three-Dimensional (3D) Perovskite Structures for Robust and Efficient Solar
Cell Fabrication. 4. Strategies and Progress in Fabrication of Metal Halide
Perovskite Nanocrystal Solar Cells. 5. Effect of Nanomaterials on the
Production of Hydrogen from the Electrochemical Process of Water Splitting.
6. Nano-MOFs and MOF-Derived Nanomaterials for Electrocatalytic Water
Splitting. 7. Novel Strategies for Improved Catalytic Hydrogen Evolution
Using Highly Efficient Nanostructures. 8. Emerging MXene-Derived
Photocatalysts for Harvesting Solar Energy into Chemical Energy. 9.
Nanomaterial and Polymer-Based Photocatalysts for Energy Applications. 10.
The Use of Advanced Nanomaterials for Lithium-Ion Rechargeable Batteries.
11. Graphene and Graphene-Based Composite Nanomaterials for Rechargeable
Lithium-Ion Batteries. 12. Advanced Nanocomposites Materials for
Supercapacitor Applications: Characteristics and Properties. 13. Metals and
Metal Oxides-Based Nanomaterials as Solid Nanostructures and their
Applications. 14. Metal and Metal Oxide Nanostructures for Superconductors.
15. Applications of Iron Nanoparticles on Osmotic Membrane Processes to
Reduce Energy Consumption and Biofouling. 16. Nanotechnology for Wastewater
Remediation.
Three-Dimensional (3D) Perovskite Structures for Robust and Efficient Solar
Cell Fabrication. 4. Strategies and Progress in Fabrication of Metal Halide
Perovskite Nanocrystal Solar Cells. 5. Effect of Nanomaterials on the
Production of Hydrogen from the Electrochemical Process of Water Splitting.
6. Nano-MOFs and MOF-Derived Nanomaterials for Electrocatalytic Water
Splitting. 7. Novel Strategies for Improved Catalytic Hydrogen Evolution
Using Highly Efficient Nanostructures. 8. Emerging MXene-Derived
Photocatalysts for Harvesting Solar Energy into Chemical Energy. 9.
Nanomaterial and Polymer-Based Photocatalysts for Energy Applications. 10.
The Use of Advanced Nanomaterials for Lithium-Ion Rechargeable Batteries.
11. Graphene and Graphene-Based Composite Nanomaterials for Rechargeable
Lithium-Ion Batteries. 12. Advanced Nanocomposites Materials for
Supercapacitor Applications: Characteristics and Properties. 13. Metals and
Metal Oxides-Based Nanomaterials as Solid Nanostructures and their
Applications. 14. Metal and Metal Oxide Nanostructures for Superconductors.
15. Applications of Iron Nanoparticles on Osmotic Membrane Processes to
Reduce Energy Consumption and Biofouling. 16. Nanotechnology for Wastewater
Remediation.
1. Introduction. 2. Nanomaterials for Solar Cells. 3. Two-Dimensional and
Three-Dimensional (3D) Perovskite Structures for Robust and Efficient Solar
Cell Fabrication. 4. Strategies and Progress in Fabrication of Metal Halide
Perovskite Nanocrystal Solar Cells. 5. Effect of Nanomaterials on the
Production of Hydrogen from the Electrochemical Process of Water Splitting.
6. Nano-MOFs and MOF-Derived Nanomaterials for Electrocatalytic Water
Splitting. 7. Novel Strategies for Improved Catalytic Hydrogen Evolution
Using Highly Efficient Nanostructures. 8. Emerging MXene-Derived
Photocatalysts for Harvesting Solar Energy into Chemical Energy. 9.
Nanomaterial and Polymer-Based Photocatalysts for Energy Applications. 10.
The Use of Advanced Nanomaterials for Lithium-Ion Rechargeable Batteries.
11. Graphene and Graphene-Based Composite Nanomaterials for Rechargeable
Lithium-Ion Batteries. 12. Advanced Nanocomposites Materials for
Supercapacitor Applications: Characteristics and Properties. 13. Metals and
Metal Oxides-Based Nanomaterials as Solid Nanostructures and their
Applications. 14. Metal and Metal Oxide Nanostructures for Superconductors.
15. Applications of Iron Nanoparticles on Osmotic Membrane Processes to
Reduce Energy Consumption and Biofouling. 16. Nanotechnology for Wastewater
Remediation.
Three-Dimensional (3D) Perovskite Structures for Robust and Efficient Solar
Cell Fabrication. 4. Strategies and Progress in Fabrication of Metal Halide
Perovskite Nanocrystal Solar Cells. 5. Effect of Nanomaterials on the
Production of Hydrogen from the Electrochemical Process of Water Splitting.
6. Nano-MOFs and MOF-Derived Nanomaterials for Electrocatalytic Water
Splitting. 7. Novel Strategies for Improved Catalytic Hydrogen Evolution
Using Highly Efficient Nanostructures. 8. Emerging MXene-Derived
Photocatalysts for Harvesting Solar Energy into Chemical Energy. 9.
Nanomaterial and Polymer-Based Photocatalysts for Energy Applications. 10.
The Use of Advanced Nanomaterials for Lithium-Ion Rechargeable Batteries.
11. Graphene and Graphene-Based Composite Nanomaterials for Rechargeable
Lithium-Ion Batteries. 12. Advanced Nanocomposites Materials for
Supercapacitor Applications: Characteristics and Properties. 13. Metals and
Metal Oxides-Based Nanomaterials as Solid Nanostructures and their
Applications. 14. Metal and Metal Oxide Nanostructures for Superconductors.
15. Applications of Iron Nanoparticles on Osmotic Membrane Processes to
Reduce Energy Consumption and Biofouling. 16. Nanotechnology for Wastewater
Remediation.