Tittmann, J.J.TittmannHermann, SaschaSaschaHermannSchulz, Stefan E.Stefan E.SchulzPacheco-Sanchez, A.A.Pacheco-SanchezClaus, M.M.ClausSchröter, M.M.Schröter2022-03-122022-03-122014https://publica.fraunhofer.de/handle/publica/38586710.1109/NANOARCH.2014.6880499Back-gated carbon nanotube field-effect transistors have been fabricated using a wafer-level technology. Source and drain electrodes are structured by lift-off and wet etching. AFM measurements reveal residual contaminations originating from structuring processes. We investigate the particle removal by an oxygen plasma treatment depending on the process time. I/V characterization reveals a strong dependency of transistor characteristics, especially hysteresis behavior, on surface cleanliness. We find the removal of residual particles to be much more important than a passivation to keep water molecules from the transistor region. We show hysteresis-free transistor behavior even after 9 weeks of storage in air without passivation.enconference paper