Local charge accumulation at a trinuclear metal-organic nanostructure on a surface

ORAL

Abstract

Coordination chemistry relies on harnessing active metal sites within organic matrices. Polynuclear complexes — consisting of organic ligands bound to several metal atoms — are relevant due to their electronic and magnetic properties, and to their potential for functional reactivity pathways. However, their synthesis remains challenging, with few geometries and configurations that have been achieved. Here, we synthesize — via supramolecular chemistry on a noble metal surface — one-dimensional metal-organic nanostructures composed of terpyridine-based molecules coordinated with well-defined polynuclear iron clusters. Combining low-temperature scanning probe microscopy techniques, density functional theory and x-ray absorption spectroscopy, we demonstrate that the coordination motif consists of coplanar terpyridine groups linked via a quasi-linear tri-iron node with mixed positive valence and a metal–metal bond configuration. This unusual linkage is stabilized by local accumulation of electrons between cations, ligands and metal surface. This morphology, enabled by the bottom-up on-surface synthesis, yields an electronic structure that hints at a chemically active polynuclear metal center, paving the way for nanomaterials with novel catalytic and magnetic functionalities.

Presenters

  • Agustin Schiffrin

    • School of Physics and Astronomy, Monash University

Authors

  • Agustin Schiffrin

    • School of Physics and Astronomy, Monash University

  • Cornelius Krull

    • School of Physics and Astronomy, Monash University

  • Marina Castelli

    • School of Physics and Astronomy, Monash University

  • Prokop Hapala

    • Institute of Physics, Czech Academy of Sciences
    • Czech Academy of Sciences

  • Anton Tadich

    • Australian Synchrotron

  • Martina Capsoni

    • Department of Physics and Astronomy, University of British Columbia

  • Mark T Edmonds

    • School of Physics and Astronomy, Monash University
    • Department of Physics and Astronomy and Centre for Future Low Energy Electronics Technologies, Monash University
    • ARC Centre of Excellence in Future Low-Energy Electronics Technologies

  • John Hellerstedt

    • School of Physics and Astronomy, Monash University
    • Institute of Physics, ASCR, v.v.i.
    • Department of Physics and Astronomy and Centre for Future Low Energy Electronics Technologies, Monash University

  • Sarah A. Burke

    • Department of Physics and Astronomy, University of British Columbia
    • University of British Columbia
    • Stewart Blusson Quantum Matter Institute, University of British Columbia

  • Pavel Jelinek

    • Institute of Physics, Czech Academy of Sciences
    • Institute of Physics, ASCR, v.v.i.
    • Czech Academy of Sciences

  • Dhaneesh Kumar

    • School of Physics and Astronomy, Monash University