Control of molecular organization and energy level alignment by an electronically nanopatterned boron nitride template

Sushobhan Joshi, Felix Bischoff, Ralph Koitz, David Ecija, Knud Seufert, Ari Paavo Seitsonen, Jürg Hutter, Katharina Diller, José I. Urgel, Hermann Sachdev, Johannes V. Barth, Willi Auwärter

Research output: Contribution to journalArticlepeer-review

75 Scopus citations

Abstract

Suitable templates to steer the formation of nanostructure arrays on surfaces are indispensable in nanoscience. Recently, atomically thin sp 2-bonded layers such as graphene or boron nitride (BN) grown on metal supports have attracted considerable interest due to their potential geometric corrugation guiding the positioning of atoms, metallic clusters or molecules. Here, we demonstrate three specific functions of a geometrically smooth, but electronically corrugated, sp2/metal interface, namely, BN/Cu(111), qualifying it as a unique nanoscale template. As functional adsorbates we employed free-base porphine (2H-P), a prototype tetrapyrrole compound, and tetracyanoquinodimethane (TCNQ), a well-known electron acceptor. (i) The electronic moirons of the BN/Cu(111) interface trap both 2H-P and TCNQ, steering self-organized growth of arrays with extended molecular assemblies. (ii) We report an effective decoupling of the trapped molecules from the underlying metal support by the BN, which allows for a direct visualization of frontier orbitals by scanning tunneling microscopy (STM). (iii) The lateral molecular positioning in the superstructured surface determines the energetic level alignment; i.e., the energy of the frontier orbitals, and the electronic gap are tunable.

Original languageEnglish
Pages (from-to)430-442
Number of pages13
JournalACS Nano
Volume8
Issue number1
DOIs
StatePublished - 28 Jan 2014

Keywords

  • TCNQ
  • boron nitride
  • confinement
  • density functional theory (DFT)
  • local work function
  • moiré
  • molecular orbital
  • monolayer
  • porphyrin
  • scanning tunneling microscopy (STM)
  • scanning tunneling spectroscopy (STS)
  • self-assembly
  • surface potential
  • template

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