Litcius/Paper detail

Optical Imaging of a Single Molecule with Subnanometer Resolution by Photoinduced Force Microscopy

Tatsuya Yamamoto, Hidemasa Yamane, Nobuhiko Yokoshi, Hisaki Oka, Hajime Ishihara, Yasuhiro Sugawara

2023ACS Nano17 citationsDOIOpen Access PDF

Abstract

Visualizing the optical response of individual molecules is a long-standing goal in catalysis, molecular nanotechnology, and biotechnology. The molecular response is dominated not only by the electronic states in their isolated environment but also by neighboring molecules and the substrate. Information about the transfer of energy and charge in real environments is essential for the design of the desired molecular functions. However, visualizing these factors with spatial resolution beyond the molecular scale has been challenging. Here, by combining photoinduced force microscopy and Kelvin probe force microscopy, we have mapped the photoinduced force in a pentacene bilayer with a spatial resolution of 0.6 nm and observed its "multipole excitation". We identified the excitation as the result of energy and charge transfer between the molecules and to the Ag substrate. These findings can be achieved only by combining microscopy techniques to simultaneously visualize the optical response of the molecules and the charge transfer between the neighboring environments. Our approach and findings provide insights into designing molecular functions by considering the optical response at each step of layering molecules.

Topics & Concepts

Kelvin probe force microscopeMaterials scienceMicroscopyNanotechnologyMoleculeSubstrate (aquarium)Molecular electronicsPentaceneChemical physicsResolution (logic)ChemistryAtomic force microscopyOpticsPhysicsComputer scienceOceanographyArtificial intelligenceGeologyOrganic chemistryLayer (electronics)Thin-film transistorForce Microscopy Techniques and ApplicationsMechanical and Optical ResonatorsMolecular Junctions and Nanostructures