Titlebook: Small Organic Molecules on Surfaces; Fundamentals and App Helmut Sitter,Claudia Draxl,Michael Ramsey Book 2013 Springer-Verlag Berlin Heide

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Effective Medium Approximation Theory Description of Charge-Carrier Transport in Organic Field-Effecesses that determine charge transport in real organic electronic devices are still not completely understood, but their comprehension is definitely the key for designing materials with improved properties and, thereby, for a further increase in the performance of the devices. In this review, we will

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FILLY

In-situ, Real-Time Investigation of Organic Thin Film Growth Using Reflectance Difference Spectroscomonitoring in real time the evolution of the optical anisotropy of surfaces and the growing organic layers, the interface formation and subsequent growth behavior can be clearly revealed. At the same time, the influence of molecule-molecule and molecule-substrate interactions on the optical properti

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Dipole-Controlled Energy Level Alignment at Dielectric Interfaces in Organic Field-Effect Transistor comparison of pristine oxide structures with advanced organic interlayer structures. The interface is particularly interesting, since the performance of an organic field-effect transistor is significantly influenced by the energy level alignment. The study targets on an understanding of interfacial

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Natural Materials for Organic Electronics chapter, we discuss such materials and their implementation in the fabrication of electronic circuits. We briefly introduce applications of such biocompatible and biodegradable materials for interfacing electronics with living tissue. Research on bio-organic materials may ultimately result in estab

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Natural Materials for Organic Electronicsompatible and biodegradable materials for interfacing electronics with living tissue. Research on bio-organic materials may ultimately result in establishing robust, environmentally safe, “green electronics” alternatives.