Mapping Complex Chiral Adlayers: A Truly Random 2-D Solid Solution of (RS)-3-Pyrroline-2-Carboxylic Acid on Cu(110)

Matthew Forster, Matthew S Dyer, Steve D Barrett, Mats Persson and Rasmita Raval
The Surface Science Research Centre, The University of Liverpool
Liverpool, L69 3BX, UK

Journal of Physical Chemistry C, 115 (2011) 1180–1185

TOC Figure

The characterization of chiral molecular adlayers remains a considerable challenge, ultimately requiring detailed knowledge of the molecular chirality, the chemical form, molecular orientation, and interaction with the surface for each molecule within the assembly. In this work, we show that the (4 × 2) organization of a racemic mixture of the amino acid derivative 3-pyrroline-2-carboxylic acid (PCA) on Cu(110) may be analyzed at the single-molecule level in which the molecular chirality and adsorption footprints of each molecule are identified. Such a detailed mapping reveals the surprising outcome that within the racemic (4 × 2) organization the adlayer does not form either the 2-D racemic compound or racemic conglomerate. Instead, both the molecular chirality and adsorption footprints are randomly distributed, creating a truly random solid solution in which both molecular chirality and footprint chirality are scrambled.

The American Chemical Society holds the copyright for the published article. More information can be found on their website.

Limitted copies of the full text are available through the ACS Articles on Request service by following this link.

Top Publications Homepage


Valid HTML 4.01! Valid CSS!