| Description |
1 online resource (xiv, 297 pages) : illustrations (some color) |
| Contents |
1. Self-organized hybrid membranes : toward a supramolecular proton conduction function -- 2. Design and applications of multifunctional catalysts based on inorganic oxides -- 3. Use of chemometric analysis in the characterization of the adsorption properties of nanoporous solids -- 4. Molecular modeling and polymer behavior -- 5. Modeling of gas transport properties and its use for structural characterization of mesoporous solids -- 6. Membrane modeling and simulation across scales -- 7. Hybrid modeling of membrane processes -- 8. Membranes for energy -- 9. Carbon nanotubes for energy applications -- 10. Ceramic membranes for gas treatment and separation -- 11. Multifunctionnal [sic] membranes based on photocatalytic nanomaterials -- 12. Nanostructured titania thin films for solar use in energy applications -- 13. Inorganic membrane reactors for energy applications |
| Summary |
This book disseminates and discusses relevant best case examples and research practices that show how nanomaterial research and related engineering concepts may provide answers and viable solutions to a variety of socioeconomic issues and concerns. The first section is dedicated to the development of new materials and their characterization. The second section addresses modeling and scale transition (from and to nanoscale) processes, and the third section presents applications in the environmental and energy sectors. Nanoporous Materials for Energy and the Environment covers a wide selection of |
| Bibliography |
Includes bibliographical references |
| In |
CRC e-books |
| Subject |
Nanostructured materials.
|
|
Nanostructured materials
|
| Form |
Electronic book
|
| Author |
Rios, Gilbert
|
|
Centi, G. (Gabriele), 1955-
|
|
Kanellopoulos, N. K. (Nick K.)
|
| ISBN |
9789814303125 |
|
9814303127 |
|
