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Paper detail

Negative Fermi-level Pinning Effect of Metal/n-GaAs(001) Junction with Graphene Interlayer

It is demonstrated that the electric dipole layer due to the overlapping of electron wavefunctions at metal/graphene contact results in negative Fermi-level pinning effect on the region of GaAs surface with low interface-trap density in metal/graphene/n-GaAs(001) junction. The graphene interlayer takes a role of diffusion barrier preventing the atomic intermixing at interface and preserving the low interface-trap density region. The negative Fermi-level pinning effect is supported by the Schottky barrier decreasing as metal work-function increasing. Our work shows that the graphene interlayer can invert the effective work-function of metal between $high$ and $low$, making it possible to form both Schottky and Ohmic-like contacts with identical (particularly $high$ work-function) metal electrodes on a semiconductor substrate possessing low surface-state density.

preprint2019arXivOpen access
Hoon Hahn YoonWonho SongSungchul JungJunhyung KimKyuhyung MoGahyun ChoiHu Young JeongJong Hoon LeeKibog Park
cond-mat.mes-hallcond-mat.mtrl-sci
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Hoon Hahn YoonWonho SongSungchul JungJunhyung KimKyuhyung MoGahyun ChoiHu Young JeongJong Hoon LeeKibog Park

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