02385nam 2200553 a 450 991101954360332120200520144314.01-283-17360-397866131736073-527-63308-13-527-63307-3(CKB)3400000000000397(EBL)700903(OCoLC)773564608(SSID)ssj0000476963(PQKBManifestationID)12159874(PQKBTitleCode)TC0000476963(PQKBWorkID)10480661(PQKB)10653844(MiAaPQ)EBC700903(EXLCZ)99340000000000039720110809d2011 uy 0engur|n|---|||||txtccrCharge and exciton transport through molecular wires /edited by Laurens D.A. Siebbeles and Ferdinand C. GrozemaWeinheim, Germany Wiley-VCH20111 online resource (335 p.)Description based upon print version of record.3-527-32501-8 Includes bibliographical references and index.pt. 1. Molecules between electrodes -- pt. 2. Donor-bridge-acceptor systems -- pt. 3. Charge transport through wires in solution -- pt. 4. Exciton transport through conjugated molecular wires.As functional elements in opto-electronic devices approach the singlemolecule limit, conducting organic molecular wires are the appropriateinterconnects that enable transport of charges and charge-like particles such as excitons within the device. Reproducible syntheses and athorough understanding of the underlying principles are therefore indispensable for applications like even smaller transistors, molecularmachines and light-harvesting materials. Bringing together experiment and theory to enable applications in real-life devices, this handbookand ready reference provides essExciton theoryElectronicsExciton theory.Electronics.621.381Siebbeles Laurens D. A1842510Grozema Ferdinand C1842511MiAaPQMiAaPQMiAaPQBOOK9911019543603321Charge and exciton transport through molecular wires4422663UNINA