Final Activity Report Summary - TPLDS (Study of in one-dimensional conduction in nanoscale charge-density wave conductors and single molecule magnets)
In the study of transport through single molecules, the researcher has implemented schemes to more consistently make nano-scale gaps with which to form metal electrodes. These electrodes are then used to attach single molecules and measure the electrical transport through them, typically at liquid helium temperatures. In the breaking schemes, electromigration is controlled to such a degree that the formation of the nanogap may be observed in a transmission electron microscope in real time. Further, a new 'self-breaking' effect has been observed in gold wires when only a few atoms contact the electrodes. Because this process does not involve sudden local heating of gold, the formation of spurious gold particles, which may have molecule-like transport characteristics is prevented.
Transport through single molecules of tercyclohexylidene and oligophenylenevinylene has been studied and the data has been analysed in the framework of quantum theory. In particular, the dependence of transport on temperature, vibrational degrees of freedom, and high magnetic fields is experimentally investigated and modelled.