Melzer, MarcelMarcelMelzerWaechtler, T.T.WaechtlerMüller, S.S.MüllerFiedler, H.H.FiedlerHermann, SaschaSaschaHermannRodriguez, R.D.R.D.RodriguezVillabona, A.A.VillabonaSendzik, A.A.SendzikMothes, R.R.MothesSchulz, Stefan E.Stefan E.SchulzZahn, Dietrich R.T.Dietrich R.T.ZahnHietschold, M.M.HietscholdLang, H.H.LangGeßner, ThomasThomasGeßner2022-03-042022-03-042013https://publica.fraunhofer.de/handle/publica/23271110.1016/j.mee.2012.10.026Carbon nanotubes (CNTs) are a highly promising material for future interconnects. It is expected that a decoration of the CNTs with Cu particles or also the filling of the interspaces between the CNTs with Cu can enhance the performance of CNT-based interconnects. The current work is therefore considered with thermal atomic layer deposition (ALD) of CuxO from the liquid Cu(I) -diketonate precursor [(nBu3P)2Cu(acac)] and wet oxygen at 135 °C. This paper focuses on different thermal in situ pre-treatments of the CNTs with O2, H2O and wet O2 at temperatures up to 300 °C prior to the ALD process. Analyses by transmission electron microscopy show that in most cases the CuxO forms particles on the multi-walled CNTs (MWCNTs). This behavior can be explained by the low affinity of Cu to form carbides. Nevertheless, also the formation of areas with rather layer-like growth was observed in case of an oxidation with wet O2 at 300 °C. This growth mode indicates the partial destructi on of the MWCNT surface. However, the damages introduced into the MWCNTs during the pre-treatment are too low to be detected by Raman spectroscopy.en621journal article