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      HEOM-QUICK: a program for accurate, efficient, and universal characterization of strongly correlated quantum impurity systems : HEOM-QUICK: a program for characterization of strongly correlated quantum impurity systems

      , , , , ,
      Wiley Interdisciplinary Reviews: Computational Molecular Science
      Wiley-Blackwell

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          Efficient iterative schemes forab initiototal-energy calculations using a plane-wave basis set

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            The Kondo Problem to Heavy Fermions

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              Coulomb blockade and the Kondo effect in single-atom transistors.

              Using molecules as electronic components is a powerful new direction in the science and technology of nanometre-scale systems. Experiments to date have examined a multitude of molecules conducting in parallel, or, in some cases, transport through single molecules. The latter includes molecules probed in a two-terminal geometry using mechanically controlled break junctions or scanning probes as well as three-terminal single-molecule transistors made from carbon nanotubes, C(60) molecules, and conjugated molecules diluted in a less-conducting molecular layer. The ultimate limit would be a device where electrons hop on to, and off from, a single atom between two contacts. Here we describe transistors incorporating a transition-metal complex designed so that electron transport occurs through well-defined charge states of a single atom. We examine two related molecules containing a Co ion bonded to polypyridyl ligands, attached to insulating tethers of different lengths. Changing the length of the insulating tether alters the coupling of the ion to the electrodes, enabling the fabrication of devices that exhibit either single-electron phenomena, such as Coulomb blockade, or the Kondo effect.
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                Author and article information

                Journal
                Wiley Interdisciplinary Reviews: Computational Molecular Science
                WIREs Comput Mol Sci
                Wiley-Blackwell
                17590876
                November 2016
                November 10 2016
                : 6
                : 6
                : 608-638
                Article
                10.1002/wcms.1269
                cfe3c7d5-2166-457d-819c-1e381b8af2dc
                © 2016

                http://doi.wiley.com/10.1002/tdm_license_1

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