Part I Theory 1 The Structure of Molecular Orbitals Investigated by AngleResolved PhotoemissionPart II Growth Model and Interfaces 2 Pre-nucleation and Growth of Self-assembling Organic MoleculeCrystals 3 Organic–Organic Heteroepitaxy—The Method of Choice to TuneOptical Emission of Organic Nano-fibers? 4 Ehrlich-Schwoebel Barriers and Island Nucleation in OrganicThin-Film Growth 5 In-situ Observation of Organic Thin Film Growth on Graphene 6 Tuning Organic Electronics via Photoreactive Thin Organic Films Part III Electrical Properties 7 Effective Medium Approximation Theory Description ofCharge-Carrier Transport in Organic Field-Effect Transistors 8 Charge Transport in Organic Diodes and OFETs: A Comparison Part IV Optical Properties 9 Excited-State Dynamics and Laser Action in Epitaxial OrganicNanofibers 10 In-situ, Real-Time Investigation of Organic Thin Film GrowthUsing Reflectance Difference Spectroscopy Part V Devices11 Dipole-Controlled Energy Level Alignment at Dielectric Interfacesin Organic Field-Effect Transistors 12 Natural Materials for Organic Electronics
CITATION STYLE
Puschnig, P., Koller, G., Draxl, C., & Ramsey, M. G. (2013). The Structure of Molecular Orbitals Investigated by Angle-Resolved Photoemission (pp. 3–23). https://doi.org/10.1007/978-3-642-33848-9_1
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