Expérimental
Chiral molecules are present in the form of two non-superimposable enantiomers due to the absence of inversion center. They then offer the unique possibility of being able to create spin selectivity at the interface with a metal. This effect, known as the CISS (chiral induced spin-selectivity) effect, was demonstrated in the early 2000s. But, the origin of this effect is still widely debated. Experimentally, the CISS effect brings together all the phenomena for which the chirality of molecular species influences the spin selectivity of various electronic processes. In particular, studies have been able to demonstrate enantio-selectivity during the adsorption of chiral molecules on magnetic substrates: depending on the orientation of the magnetization, a given enantiomer is preferentially adsorbed. In this context, the internship will focus on the interfaces between chiral molecules and metallic or ferromagnetic substrates in order to understand their properties. For this, measurements by scanning tunneling microscopy (STM) will be carried out. For the structural properties, it will be important to understand how chiral molecules adsorb on different metallic substrates. Furthermore, tunneling spectroscopy will provide access to the electronic properties of molecules and it will then be interesting to understand how the CISS effect translates into transport through molecular orbitals, before testing the spin selectivity.