Langmuir, Vol.27, No.22, 13544-13553, 2011
Physical Structure of Standing-Up Aromatic SAMs Revealed by Scanning Tunneling Microscopy
Long-range-ordered aromatic SAMs are formed on Au (111) using 4-nitrophenyl sulfenyl chloride as a precursor. Although the main structure is a. root 3 x root 3 with a molecular density similar to that usually found for aliphatic SAMs, particular spots presenting specific shapes are also observed by STM. These include hexagons, partial hexagons, parallelograms, and zigzags resulting from specific arrangements of adsorbed molecules. These molecular arrangements are reversible as they form and dissociate or "vanish" in various areas on the surface. STM shows that these particular structures provide some order to their surrounding because areas void of these structures look less ordered. More interestingly, STM shows submolecular details of the molecules involved in forming these structures, hence providing direct experimental evidence for the ability of the STM to provide physical structure information of standing up SAMs. This is indeed a heavily debated question, and this work reports the first experimental example where submolecular physical structure is revealed by STM for standing-up SAMs.