Paper SS-ThM6
Chirality in Flatland: 2D Crystallization, Single-Molecule Dynamics and Unidirectional Rotors

Thursday, November 1, 2012, 9:40 am, Room 22

A promising approach to study chiral molecular recognition is studying two-dimensional (2D) crystallization phenomena on well-defined surfaces via scanning tunneling microscopy (STM). We present studies on different two-dimensional chiral systems and discuss their tendency to undergo enantiomeric separation. A special surface enantiomorphism is observed via STM after adsorption of the enantiomers of a helical aromatic hydrocarbon on Cu(111). Instead of crystallization into homochiral 2D domains on the surface, racemic enantiomorphs are observed. In this situation, a small excess of one enantiomer is sufficient to create domains possessing single handedness throughout the entire surface layer. The induction of homochirality by chiral doping has also been observed for succinic acid and achiral (R,S)-tartaric acid. Our findings are explained by cooperative interactions between many chiral units, similar to the mechanism of chiral amplification observed in helical polymers and coined as "Sergeants-and-soldiers" principle. Another recently observed phenomenon is single enantiomorphism due to chiral conflict. Depending on the handedness of a chiral adduct to a racemic situation suppresses one enantiomorph during crystal growth, but supports the other by forming a quasiracemic solid solution. Finally, we present chirality aspects in single molecule surface dynamics, including conversion of adsorbate handedness and linear, unidirectional propulsion of a molecular car with chiral “wheels”.