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 essential information on how to control and direct charge transport. Readers can therefore obtain a balancedview of charge and exciton transport, covering characterization techniques such as spectroscopy and current measurements together with quantitative models. Researchers are thus able to improve the performance of newly developed devices, while an additional overview of synthesis methods highlights ways of producing different organic wires. Written with the following market in mind: chemists, molecularphysicists, materials scientists and electrical engineers. Wie man den Transport von Ladungsträgern und Excitonen in molekularen Drähten steuert, beschreibt dieser in sich geschlossene, gut verständlich geschriebene Band. Dabei kommen Charakterisierungsverfahren (Spektroskopie), neueste Messergebisse, Verfahren zur Optimierung von Bauelementen und quantitative Modelle gleichermaßen gründlich zur Sprache. Zusätzlich finden Sie einen Überblick über Synthesemethoden zur Herstellung verschiedener Typen von organischen Drähten. Für Chemiker, Molekülphysiker, Materialwissenschaftler und Elektrotechniker.