Designing Optoelectronic Properties by On-Surface Synthesis: Formation and Electronic Structure of an Iron-Terpyridine Macromolecular Complex.
Agustin SchiffrinMartina CapsoniGelareh FarahiChen-Guang WangCornelius KrullMarina CastelliTanya RoussyKatherine A CochraneYuefeng YinNikhil V MedhekarMichael FuhrerAdam Q ShawWei JiSarah A BurkePublished in: ACS nano (2018)
Supramolecular chemistry protocols applied on surfaces offer compelling avenues for atomic-scale control over organic-inorganic interface structures. In this approach, adsorbate-surface interactions and two-dimensional confinement can lead to morphologies and properties that differ dramatically from those achieved via conventional synthetic approaches. Here, we describe the bottom-up, on-surface synthesis of one-dimensional coordination nanostructures based on an iron (Fe)-terpyridine (tpy) interaction borrowed from functional metal-organic complexes used in photovoltaic and catalytic applications. Thermally activated diffusion of sequentially deposited ligands and metal atoms and intraligand conformational changes lead to Fe-tpy coordination and formation of these nanochains. We used low-temperature scanning tunneling microscopy and density functional theory to elucidate the atomic-scale morphology of the system, suggesting a linear tri-Fe linkage between facing, coplanar tpy groups. Scanning tunneling spectroscopy reveals the highest occupied orbitals, with dominant contributions from states located at the Fe node, and ligand states that mostly contribute to the lowest unoccupied orbitals. This electronic structure yields potential for hosting photoinduced metal-to-ligand charge transfer in the visible/near-infrared. The formation of this unusual tpy/tri-Fe/tpy coordination motif has not been observed for wet chemistry synthetic methods and is mediated by the bottom-up on-surface approach used here, offering pathways to engineer the optoelectronic properties and reactivity of metal-organic nanostructures.
Keyphrases
- density functional theory
- high resolution
- molecular dynamics
- water soluble
- single molecule
- metal organic framework
- electron microscopy
- aqueous solution
- visible light
- gene expression
- lymph node
- molecular dynamics simulations
- high throughput
- drug discovery
- optical coherence tomography
- climate change
- hepatitis c virus
- risk assessment
- cystic fibrosis
- biofilm formation