Plasmonic nanostructures will be interfaced with carbon nanotubes in order to measure electrical transport while simultaneously monitoring structural and chemical changes through plasmon-enhanced Raman scattering. By using plasmonic structures interfaced to nanotubes, we will remove the limitations of resonant Raman spectroscopy and will be able to study fundamental aspects of e.g. current limitation in nanotubes without complications related to changes in resonance conditions, as well as providing fundamental information concerning the nanotube/nanoantenna interface. The team consists of four groups with complementary expertise in all key aspects of the project. The devices to be developed in the course of the collaboration will serve as a test bed for interfaces between single molecules and nanoantennas that are promising for fundamental studies in molecular electronics as well as for single-molecule detection.

DFG-Verfahren Sachbeihilfen

Internationaler Bezug Großbritannien, Israel

Beteiligte Personen Professorin Dr. Eleanor E.B. Campbell; Professor Dr. Aaron Lewis; Professor Dr. Stefan Maier