Abstract

AbstractThe practical applicability of ultrathin films, which offer interesting and novel functionalities, is often limited by difficulties in achieving large area deposition while maintaining homogenous layer properties. Herein, a new deposition method allowing ultrathin, conductive gallium‐containing layers to be prepared at ambient conditions on wafer‐scaled areas is presented. Multilayers are formed by repetition of the deposition procedure. High‐resolution structural analysis using X‐ray reflectometry shows that the multilayer thickness is proportional to the number of deposition cycles, yielding a highly reproducible single layer thickness of 2.9 ± 0.2 nm. Furthermore, it is shown that single layers consist of a complex heterostructure composed of a nanometer‐thin metallic Ga core, which is surrounded by stabilizing gallium (hydr)oxide skin layers. The macroscopic electric conductivity of these multilayers increases with increasing number of deposited layers, approaching the value of bulk gallium after six deposition cycles, thereby showing that functional properties such as the multilayer's electrical conductivity can be fine‐tuned based on the chosen number of deposition cycles.

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