Probing the nanometer-scale electronic properties of pi-conjugated supramolecular architectures as spatially confined electrically active nano-objects represents a great challenge. A scanning probe microscopy investigation of the structural organization and electronic properties of a specially designed and synthesized hydrogen-bonding azatriphenylene derivative (see figure) is described both at the single-molecule and ensemble level, supported by quantum-chemical calculations.
Self-organization and nanoscale electronic properties of azatriphenylene-based architectures: A scanning probe microscopy study
Liscio Andrea;Palermo Vincenzo;
2006
Abstract
Probing the nanometer-scale electronic properties of pi-conjugated supramolecular architectures as spatially confined electrically active nano-objects represents a great challenge. A scanning probe microscopy investigation of the structural organization and electronic properties of a specially designed and synthesized hydrogen-bonding azatriphenylene derivative (see figure) is described both at the single-molecule and ensemble level, supported by quantum-chemical calculations.File in questo prodotto:
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