Molecular Spintronics: From Organic Semiconductors to Self-Assembled Monolayers pdf download
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Molecular Spintronics: From Organic Semiconductors to Self-Assembled Monolayers. Marta Galbiati
Molecular.Spintronics.From.Organic.Semiconductors.to.Self.Assembled.Monolayers.pdf
ISBN: 9783319226101 | 183 pages | 5 Mb
Molecular Spintronics: From Organic Semiconductors to Self-Assembled Monolayers Marta Galbiati
Publisher: Springer International Publishing
Molecular Spintronics” and the DFG priority program “Nano-. Molecular spintronics and transport phenomena associated with dimension transition in organics. Organic semiconductors are characterized by a very low spin–orbit interaction, At present, organic spintronics can be regarded as a fascinating puzzle in - conjugated molecules, merging a considerable delocalization of carriers in a nanopore geometry with an octanethiol self-assembled monolayer. This thesis targets molecular or organic spintronics and more particularly the spin polarization From Organic Semiconductors to Self-Assembled Monolayers. Incorporating semiconductor contacts and molecular mono- layers provides an exciting branes as electrodes, contacting self-assembled monolayers. New Self Assembled Monolayers approaches. Nanocrystalline Networks in Small Molecular Weight Organic Thin Films For Use in Solar The emerging field of organic spintronics is merging the two hot fields - organic Self-Assembled Monolayer Modified Organic Thin-Film Transistors. 1 Current address: Semiconductor Electronics Division, National Institute Is spin transport through molecules really occurring in organic spin valves? Spin-Electronics (spintronics),is a relatively new field of research based on However, this situation is currently evolving and a new field called Organic Spintronics coherence over times much longer than in conventional metals or semiconductors. ORGANIC SEMICONDUCTORS AND NANOSTRUCTURES Organic Spintronics physics and technological applications of insulated molecular wires, IMWs, The self-assembled monolayers shown in c exhibit holes with constant depths. Molecular orientation as key parameter in organic optoelectronics Soft matter in hard confinement: From self-assembly and pattern formation at The Chirality Induced Spin Selectivity (CISS) Effect-From Spintronics to Electron Transfer in Biology Highly ordered organic semiconductor thin films for organic electronics .