Thermoelectric properties of low-dimensional charge-carrier systems in high-quality semiconductor heterostructures are studied experimentally and theoretically. The project focuses on systems, in which the energy spectrum is controllable to a high extent via external parameters. They can be viewed as model systems for the engineering of nanoscale objects and devices with tailored thermoelectric properties. Experiments are performed on two-dimensional systems, embedded in nanoscrolls, quasi-onedimensional wires as well as zero-dimensional coupled quantum dot systems in modulation doped III-V heterostructures. Device structures are prepared by means of electron-beam lithography. Consequences for the thermopower due to the coexistence of coherent and incoherent transport processes will be addressed in detailed theoretical studies.

DFG Programme Priority Programmes

Subproject of SPP 1386:  Nanostructured Thermoelectric Materials: Theory, Model Systems and Controlled Synthesis

International Connection Spain