Formation of Molecular Networks: Tailored Quantum Boxes and Behavior of Adsorbed CO in Them

ORAL

Abstract

We show that the behavior of CO adsorbed into the pores of large regular networks on Cu(111) is significantly affected by their nano-scale lateral confinement and that formation of the networks themselves is directed by the Shockley surface state. Saturation coverages of CO are found to exhibit persistent dislocation lines; at lower coverages their mobility increases. Individual CO within the pores titrate the surface state, providing crucial information for understanding formation of the network as a result of optimization of the number N of electrons bound within each pore. Determination of N is based on quinone-coverage-dependent UPS data and an analysis of states of particles in a pore-shaped box (verified by CO's titration); a wide range of possible pore shapes and sizes has been considered.

Authors

  • Jon Wyrick

    UC Riverside

  • Dezheng Sun

    UC Riverside

  • Dae-Ho Kim

    UC Riverside

  • Zhihai Cheng

    UC Riverside

  • Wenhao Lu

    UC Riverside

  • Yeming Zhu

    UC Riverside

  • Miaomiao Luo

    UC Riverside

  • Yong Su Kim

    LBL Berkeley

  • Eli Rotenberg

    ALS, LBL Berkeley, Lawrence Berkeley National Laboratory

  • Kwangmoo Kim

    U. Maryland

  • T.L. Einstein

    U. of Maryland, U. Maryland, University of Maryland, College Park, Materials Research Science and Engineering Center and Center for Nanophysics and Advanced Materials, Department of Physics, University of Maryland, University of Maryland, U. of Maryland, College Park

  • Ludwig Bartels

    UC Riverside, UCR