Metallic behaviour of carrier-polarized C$_{60}$ molecular layers: Experiment and Theory

Canada); C. C. Lo; C. J. Huang (Toronto University); Marek Z. Zgierski (NRC; M.W.C. Dharma-wardana; Z.H. Lu

arxiv: cond-mat/0411067 · v1 · submitted 2004-11-02 · ❄️ cond-mat.mtrl-sci · cond-mat.str-el

Metallic behaviour of carrier-polarized C₆₀ molecular layers: Experiment and Theory

Z.H. Lu , C. C. Lo , C. J. Huang (Toronto University) , M.W.C. Dharma-wardana , Marek Z. Zgierski (NRC , Canada) This is my paper

classification ❄️ cond-mat.mtrl-sci cond-mat.str-el

keywords conductancecoulomblayersmolecularreducedaffectedalthoughbandgap

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Although C$_{60}$ is a molecular crystal with a bandgap E$_g$ of ~2.5 eV, we show that E$_g$ is strongly affected by injected charge. In sharp contrast to the Coulomb blockade typical of quantum dots, E$_g$ is {\it reduced} by the Coulomb effects. The conductance of a thin C$_{60}$ layer sandwiched between metal (Al, Ag, Au, Mg and Pt) contacts is investigated. Excellent Ohmic conductance is observed for Al electrodes protected with ultra-thin LiF layers. First-principles calculations, Hubbard models etc., show that the energy gap of C$_{60}$ is dramatically reduced when electrons hop from C$_{60}^-$ to C$_{60}$.

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Metallic behaviour of carrier-polarized C₆₀ molecular layers: Experiment and Theory

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