Faraday law, oxidation numbers, and ionic conductivity:
The role of topology

Raffaele Resta

Institute of Materials Workshop
(CNR), Trieste

Wed, February 2, 2022 - 4:00 PM


Zoom Presentation Linkfoto-resta.png

The Faraday laws of electrolysis state that the charge transported by a solvated ion between two electrodes is an integer multiple of the elementary charge e. Why this happens is far from obvious, because liquids are not assemblies of ions: they are assemblies of atoms, having ionic character only because the neighboring atoms have different ionicity. There is no way of extracting integer charges from a "snapshot" of the electronic charge distribution at a given time. Instead, integer charges manifest themselves only when the nuclei are adiabatically transported over macroscopic distances: a playground where topology--since Thouless' seminal work in the 1980s--has a major role.

Join Zoom Link  

https://cua.zoom.us/j/89745249011?pwd=V2VMeE9TVjV2THRMT0NjRGsxMzNtUT09


If you have any questions about the Colloquium Series  or would like to make a donation please contact the Physics Department, cua-physics@cua.edu or (202) 319-5315.