6533b7d6fe1ef96bd12663fb
RESEARCH PRODUCT
Single-molecule optical switching of terrylene in p-terphenyl
Th. BaschéR. MatzkeS. KummerChristoph BräuchleF. Kulzersubject
MultidisciplinaryAbsorption spectroscopybusiness.industryAtoms in moleculesMolecular physicsOptical switchchemistry.chemical_compoundOpticschemistryTerphenylAtomMoleculeAbsorption (chemistry)businessExcitationdescription
The controlled manipulation and switching of single atoms and molecules raise the prospect of ultra-high-density data storage. Switching by motion of a single atom has been reported1, and techniques of single-molecule optical detection and spectroscopy2 in the condensed phase have been refined to a degree that allows the modification of the absorption properties of a single chromophore3. Light-induced jumps in single-molecule excitation frequencies have been reported3,4,5, but in none of these cases could the process be controlled: the jumps varied from molecule to molecule, they were interrupted by spontaneous jumps, and the new excitation frequencies could not be identified unambiguously. Here we report light-induced reversible frequency jumps ofsingle molecules of the aromatic hydrocarbon terrylene embedded in a particular site of a p-terphenyl host crystal6 at temperatures of around 2 K. The changes in absorption frequency for different terrylene molecules were identical (within 0.5%) for all samples studied. Thus we were able to switch single-molecule absorption lines in a controlled way between well-defined frequency positions.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 1997-06-01 | Nature |