“…For example, microfluidic systems or photoinduced methods have been used for the physical separation of chiral substances. , Furthermore, Naaman et al evaluated the influence of an external magnetic field on the chiral resolution of oligopeptides, oligonucleotides, and amino acids, , which is based on the enantiospecific differences in the adsorption rates of the antipodes on the surface of a ferromagnetic material, as a function of the magnetic field orientation . Alternatively, several efforts have been made to design new enantioselective materials, such as mesostructured heteromembranes, − functionalized graphene sheets, , or two-dimensional porous metal–organic frameworks, − allowing the propagation of only one enantiomer through the pores. More recently, electroassisted enantioselective separation has been achieved by using imprinted metallic surfaces and metallic organic frameworks encoded with chiral information. , In both cases, the enantioaffinities of these so-called chiral surfaces are modulated by imposing an electric potential.…”