Electronic and optical properties of conjugated polymers / William Barford.
Material type: TextLanguage: English Series: Oxford science publications | International series of monographs on physics (Oxford, England) ; 129Publication details: Oxford : Clarendon Press, 2005.Description: xv, 262 p : ill ; 24 cmISBN:- 9780198526803
- 0198526806
- 9780199553785
- 547.704 BAR
Item type | Current library | Collection | Call number | Copy number | Status | Date due | Barcode |
---|---|---|---|---|---|---|---|
General Books | CUTN Central Library Sciences | Non-fiction | 547.704 BAR (Browse shelf(Opens below)) | Available | 30279 | ||
General Books | CUTN Central Library Sciences | Non-fiction | 547.704 BAR (Browse shelf(Opens below)) | 1 | Available | 7977 |
Browsing CUTN Central Library shelves, Shelving location: Sciences, Collection: Non-fiction Close shelf browser (Hides shelf browser)
547.7 WAL Polymers | 547.7 WHI Polymers | 547.7 WHI Polymers | 547.704 BAR Electronic and optical properties of conjugated polymers / | 547.704 BAR Electronic and optical properties of conjugated polymers / | 547.704424 HOB Non-covalent interactions / | 547.70457 GLE Conjugated Polymers at Nanoscale : Engineering Orientation, Nanostructure, and Properties/ |
First published in paperback 2009.
1. Introduction to Conjugated Polymers 2. Pi-Electron Theory of Conjugated Polymers 3. Non-Interacting Electrons 4. Electron-Lattice Coupling I: Non-Interacting Electrons 5. Interacting Electrons 6. Excitons in Conjugated Polymers 7. Electron-Lattice Coupling II: Interacting Electrons 8. Optical Processes in Conjugated Polymers 9. Electronic Processes in Conjugated Polymers 10. Linear Polyenes and Trans-Polyacetylene 11. Light Emitting Polymers A. Dirac Bra-ket Operator Representation of One-Particle Hamiltonians; B. Particle-Hole Symmetry and Average Occupation Number; C. Single-Particle Eigensolutions of a Periodic Polymer Chain; D. Derivation of the Effective-Particle Schroedinger Equation; E. Hydrogenic Solutions to the Effective-Particle Exciton Models; F. Evaluation of the Electronic Transition Dipole Moments; G. Valence-Bond Description of Benzene; H. Density Matrix Renormalization Group Method
Includes bibliographical references and index.
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