Recent Advances on Hydrogen Storage in Micro- and Mesoporous Materials: Green Sustainable Process for Chemical and Environmental Engineering and Science
Editat de Amir Al-Ahmed, Bashirul Haq, Stefan Iglaueren Limba Engleză Paperback – iun 2025
- Covers latest findings on physisorption-based hydrogen storage
- Addresses challenges and future perspectives of hydrogen storage in fuel cell vehicles
- Focuses on microporous and mesoporous materials for hydrogen storage
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Specificații
ISBN-13: 9780443236570
ISBN-10: 0443236577
Pagini: 450
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
ISBN-10: 0443236577
Pagini: 450
Dimensiuni: 191 x 235 mm
Editura: ELSEVIER SCIENCE
Cuprins
Part 1: Hydrogen storage in zeolite and clay materials
1. Hydrogen storage in zeolite at elevated pressure
2. Hydrogen storage in Chabazite zeolite
3. Hydrogen storage in microporous zeolite
4. Hydrogen storage for ion-exchanged Mazzite and Levyne zeolites
5. Hydrogen storage in low silica type X zeolites
6. Hydrogen storage studies in Zeolite-Y Templated Carbon
7. Adsorption and desorption of hydrogen in ZSM-5
8. Hydrogen storage in nanoporous Zeolites
9. Hydrogen storage in Zeolitic imidazolate framework (ZIF) at ambient condition
Part 2: Hydrogen storage in MOF
10. MOF for Hydrogen storage
11. Effect of MOF Crystal structures on optimum Hydrogen storage
12. The hydrogen storage mechanism of MOF
13. Recent advancement of Hydrogen storage in MOFs
14. MOF-5 as promising material for hydrogen storage
15. Graphene and modified graphene for Hydrogen storage
16. Hydrogen storage in Surface-Modified Multi-walled Carbon
17. Modified carbon nanotubes for hydrogen storage
18. Hydrogen storage in carbon nanotube-based nanocomposite
19. Hydrogen storage in modified graphene-based nanocomposite
Part 3: Hydrogen storage in polymeric Materials
20. Hydrogen storage in intrinsic microporous polymer
21. Hydrogen storage in polymeric nanocomposites
22. Hydrogen storage in electrospun nanofibrous materials
23. Hydrogen storage in nanoporous polymers
24. Economic impacts of physisorption based Hydrogen storage
25. Case or feasibility studies physisorption based Hydrogen storage
26. Challenges and prospects physisorption based Hydrogen storage
27. Hydrogen storage in conducting polymers
1. Hydrogen storage in zeolite at elevated pressure
2. Hydrogen storage in Chabazite zeolite
3. Hydrogen storage in microporous zeolite
4. Hydrogen storage for ion-exchanged Mazzite and Levyne zeolites
5. Hydrogen storage in low silica type X zeolites
6. Hydrogen storage studies in Zeolite-Y Templated Carbon
7. Adsorption and desorption of hydrogen in ZSM-5
8. Hydrogen storage in nanoporous Zeolites
9. Hydrogen storage in Zeolitic imidazolate framework (ZIF) at ambient condition
Part 2: Hydrogen storage in MOF
10. MOF for Hydrogen storage
11. Effect of MOF Crystal structures on optimum Hydrogen storage
12. The hydrogen storage mechanism of MOF
13. Recent advancement of Hydrogen storage in MOFs
14. MOF-5 as promising material for hydrogen storage
15. Graphene and modified graphene for Hydrogen storage
16. Hydrogen storage in Surface-Modified Multi-walled Carbon
17. Modified carbon nanotubes for hydrogen storage
18. Hydrogen storage in carbon nanotube-based nanocomposite
19. Hydrogen storage in modified graphene-based nanocomposite
Part 3: Hydrogen storage in polymeric Materials
20. Hydrogen storage in intrinsic microporous polymer
21. Hydrogen storage in polymeric nanocomposites
22. Hydrogen storage in electrospun nanofibrous materials
23. Hydrogen storage in nanoporous polymers
24. Economic impacts of physisorption based Hydrogen storage
25. Case or feasibility studies physisorption based Hydrogen storage
26. Challenges and prospects physisorption based Hydrogen storage
27. Hydrogen storage in conducting polymers