Molecular Materials and Nanosystems (M2N)


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Phd position Do magnetic moments in RuO2(110)

Phd position:

 Title: “Do magnetic moments in RuO2(110) and in 3d-transition metal perovskite oxides determine the high efficiency in oxygen catalysis? “

Electrolysis of water is a potential source for hydrogen production on a large scale. A measure of the inefficiency in electrolysis is the so called overpotential, the voltage needed to drive the process in excess of the voltage under thermodynamical equilibrium conditions. The contribution to the overpotential of the oxygen evolution dominates overwhelmingly. Magnetic oxygen is produced from nonmagnetic water, thus the role of surface magnetism could be highly relevant. Neither water nor hydrogen is magnetic, so oxygen can only be produced in an excited nonmagnetic state without violating conservation of angular momentum. For nonmagnetic anodes, the high overpotential can be associated with the notion that oxygen is produced initially in its nonmagnetic excited state and decays slowly to the ground state by higher order processes. A mechanism or a proper understanding for the high catalytic activity of e.g. RuO2 and oxide perovskites is still unknown, but recently de Groot et al. [1] proposed a very interesting idea: magnetic moments are at play.

[1] E.Totun, C.M. Fang, G.A. de Wijs, R.A. de Groot, J.Phys.Chem.C117, 6353 (2013).

Goal of the project:
A detailed study to correlate the specific atomic sites and their magnetic identity with water dissociation on RuO2(110) and transition metal TM oxide surfaces with spin-polarised STM/STS and UPS (TU/E) will be combined with a more macroscopic performance study of the system with optical/transport measurements to determine  the overpotential at the FOM institute (DIFFER).

more information contact: Kees Flipse

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Molecular Materials and Nanosystems

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