Nanopores and nanoporous materials
| Otros Autores: | |
|---|---|
| Formato: | Libro electrónico |
| Idioma: | Inglés |
| Publicado: |
Hauppauge, New York :
Nova Science Publisher's, Inc
[2016]
|
| Colección: | EBSCO Academic eBook Collection Complete.
Nanotechnology science and technology. |
| Acceso en línea: | Conectar con la versión electrónica |
| Ver en Universidad de Navarra: | https://innopac.unav.es/record=b37343348*spi |
Tabla de Contenidos:
- Preface; Chapter 1; Design of Functional Nanoporous Polymeric Materials from Self-Organized Block Copolymers; Abstract; List of Abbreviations; Introduction; 1. General Considerations and Synthetic Approaches to Nanoporous Polymers from BCPs; 2. Selective Degradation of the Sacrificial Block; 3. Selective Cleavage of the Junction between Both Blocks; 4. Pore Surface Functionalization; Conclusion and Future Prospects; References; Chapter 2; Nanoporous Montmorillonite Clay: Sustainable Catalyst and Catalysts Support; Abstract; Introduction; Montmorillonite Clay and Its Modification.
- Structure of Montmorillonite ClayProperties of Montmorillonite Clay: Isomorphous Substitution and Cation Exchange Capacity; Nanoporous Montmorillonite Clay; Acidity of Modified and Unmodified Montmorillonite Clay; Nanoporous Montmorillonite Clay as a Catalyst; Nanoporous Montmorillonite Clay Supported Metal Nanoparticles Catalysts; Conclusion; References; Chapter 3; Soft Nanoporous Materials from Peptides, Polyamides and Polyimides; Abstract; 1. Introduction; 1.1. Porous Materials from Dipeptides; 1.2. Porous Materials from Tripeptides; 1.3. Porous Materials from Pentapeptides.
- 1.4. Porous Materials from Cyclicpeptide1.5. Porous Materials from Peptide Conjugates; 2. Porous Materials from Polyamides; 3. Porous Materials from Polyimides; Conclusion; References; Biographical Sketch; Chapter 5; Nano-Drilling Processing with TEM; Abstract; 1. Introduction; 1.1. Motivation and Purposes; 2. Description of System's Materials; 2.1. Manufacturing Process Method and Apparatus for Nano-Porous Material; 2.2. Film Growth; 2.3. Preparation of the Samples; 3. System of Nano Drill; 3.1. Transmission Electron Microscope; 3.2. The Structure of the Proposed System.
- 3.2.1. Innovative Design of the Sample Susceptor3.3. Sample Design; 4. Results and Analysis; 4.1. Experimental Results; 4.1.1. Nanopores; 4.1.2. Gold-Plated Nano Holes; 4.1.3. Nanowires; 4.2. Interpretation and Discussion; Conclusion and Future Outlook; References; Index; Blank Page.
