Substrate as the primer of relay-race spin-driven self-assembly of chiral molecules

Abstract

The molecules of chiral N-trifluoroacetylated α-aminoalcohols can self-assemble and form long and thin fiber-like supramolecular structures (strings). The strings effectively grow on the surface of the substrate and the amount of them, as well as their morphology, depend on the properties of the substrate. In particular, self-assembly was not observed on the electroconductive substrates, such as some metals (copper and aluminum) and graphite. The strings were found on the surface of titanium due to the peculiarities of the titanium oxide’s properties. The strings usually emanate from some nucleation zones, where the growth was initiated and then proceeded spontaneously outside these areas. We supposed the relay-race scheme of the transfer of spin polarization, which describes the mechanics and thermodynamics of the observed self-assembly process. The scheme implies the preliminary orientation of two molecules, their mutual polarization accompanied by spin-polarization, and finally the binding of the molecules. We also suppose this mechanism can play a significant role in various self-assembly processes in living cells.