We fabricated the Au/n-type Ge Schottky barrier diodes (SBDs) by introducing a graphene interlayer in-between Au and n-type Ge. Then we investigated the effects of the graphene interlayer on their electrical properties using the current-voltage (I-V) and capacitance-voltage (C-V) characteristics. Schottky barrier properties of Au/n-type Ge SBDs with and without graphene interlayer were cross-checked by various analysis techniques such as forward I-V, C-V, Cheung%26apos;s, and Norde%26apos;s methods. The Au/n-type Ge SBD with graphene interlayer exhibited lower ideality factor and series resistance, as compared to Au/n-type Ge SBD. The barrier height of Au/graphene/n-type Ge SBD was higher than that of Au/n-type Ge SBD. It is observed that the Fermi-level pinning at Au/Ge Schottky junction was released by the graphene interlayer. The Fermi-level depinning behavior of Ge was also observed in the graphene-interlayered Ti contact to n-type Ge. The introduction of the graphene interlayer to Au/n-type Ge SBD led to a significant reduction of interface state density (N-ss) associated with the passivation of Ge surface by graphene, which could be responsible for minimizing the Fermi-level pinning of Ge.

• 出版日期2014-11-25