Testing Molecular Wires, 2010 A Photophysical and Quantum Chemical Assay Springer Theses Series
Langue : Anglais
The field of molecular electronics and organic photovoltaics is steadily
growing. One of the major themes in molecular electronics is the
construction, measurement, and understanding of the current-voltage
response of an electronic circuit, in which molecules may act as
conducting elements. The investigated molecular structures in this thesis
have been shown to be suitable for distance-independent charge transport.
More precisely, the systems investigated were of particular interest due
to their ability to provide efficient electronic coupling between
electroactive units, and display wire-like behavior in terms of
transferring charges from donors to acceptors. Besides impacting on the
field of molecular electronics, the results of this research also has
applications in the design and development of light harvesting,
photoconversion and catalytic modules. This work is a great asset to the
field of charge transport through organic pi-conjugated molecules.
and Motivation.- to Molecular Electronics.- Motivation—Focusing on Molecular Wires.- Theoretical Concepts.- Concepts of Photoinduced Electron and Energy Transfer Processes Across Molecular Bridges.- Molecule-Assisted Transport of Charges and Energy Across Donor–Wire–Acceptor Junctions.- Examples of Molecular Wire Systems.- Results and Discussion.- Objective.- Instruments and Methods.- Energy Transfer Systems.- Electron Transfer Systems.- Conclusions and Outlook.
Prize-awarded thesis Nominated by the University of Erlangen for a Springer Theses Prize An outstanding contribution to charge transport through organic pi- conjugated molecules Results of research can be applied in field of molecular electronics and organic photovoltaics Includes supplementary material: sn.pub/extras
Date de parution : 01-2013
Ouvrage de 182 p.
15.5x23.5 cm
Date de parution : 11-2010
Ouvrage de 182 p.
15.5x23.5 cm
Thème de Testing Molecular Wires :
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