Molecular Organic Materials: From Molecules to Crystalline SolidsCambridge University Press, 27 avr. 2006 - 335 pages The interest in molecular organic materials is tremendous, driven by the need to find new materials with desirable properties. This book aims to bring the materials and surface science communities together, integrating physics and chemistry in a non-technical manner, ensuring this fascinating field can be understood by a multi disciplinary audience. Starting with basic physical concepts and synthetic techniques, the book describes how molecules assemble into highly ordered structures as single crystals and thin films, with examples of characterization, morphology and properties. Special emphasis is placed on the importance of surfaces and interfaces. The final chapter gives a personal view on future possibilities in the field. Written for beginners and experienced chemists, physicists and material scientists, this will be a useful introduction to the field of molecular organic materials. |
Table des matières
Section 1 | 44 |
Section 2 | 51 |
Section 3 | 85 |
Section 4 | 102 |
Section 5 | 116 |
Section 6 | 123 |
Section 7 | 132 |
Section 8 | 143 |
Section 14 | 221 |
Section 15 | 224 |
Section 16 | 234 |
Section 17 | 238 |
Section 18 | 242 |
Section 19 | 252 |
Section 20 | 254 |
Section 21 | 258 |
Section 9 | 147 |
Section 10 | 190 |
Section 11 | 192 |
Section 12 | 198 |
Section 13 | 207 |
Section 22 | 269 |
Section 23 | 281 |
Section 24 | 286 |
Section 25 | 289 |
Autres éditions - Tout afficher
Molecular Organic Materials: From Molecules to Crystalline Solids Jordi Fraxedas Aucun aperçu disponible - 2008 |
Expressions et termes fréquents
achieved applied atoms band becomes bonding charge chemical complex conducting considered consists containing core corresponds crystallographic defined density dependence deposition described determined direction discussed effect electrons energy et al etal example exhibit experimental experiments expression field Figure first formation function given grey groups grown growth hence increase induced interactions interface known larger lattice layers leads lines magnetic materials measurements metal method molecular molecules MOMs neutral observed obtained orbitals organic orientation pentacene performed period permission phase physical plane polymorphs possible prepared pressure properties referred represented Reprinted respectively salts sample selected semiconductors shown in Fig shows single crystals solid solution solvent space group spectra step structure studied substrate surface synthesis Table TCNQ technique temperature thickness thin films transition Tsub TTF-TCNQ typically values