On transport and kinetics in Li-Ion cell cathodes
Thomas Schied
Institute for Materials Science and Nanotechnology, TU Dresden

Feb. 4, 2021, 1 p.m.


Brief CV

Thomas studied physics at the Dresden University of Technology. He worked in the group of Dr. Sebastian Fähler at the Institute for Solid State Research - IFW Dresden - and got his diploma on phase formation and magnetism of thin Fe-Pd films. Later he joined the electrochemistry group of Prof. Ehrenberg at the Institute for Complex Materials at the IFW Dresden were he wrote his doctoral thesis about transport in Lithium-Oxygen cells. The same year he changed to our chair and became a member of Dr. Bobeth's group of computational material science where he worked on developing models for a range of electrochemical problems such as Lithium-ion cells, electrodeposition and trench superfilling. Currently he continues work as a research associate on battery simulation and is also involved in teaching computational materials science topics such as finite element method.

https://nano-tud.de/2130/



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On transport and kinetics in Li-Ion cell cathodes
Thomas Schied
Institute for Materials Science and Nanotechnology, TU Dresden

Feb. 4, 2021, 1 p.m.


Brief CV

Thomas studied physics at the Dresden University of Technology. He worked in the group of Dr. Sebastian Fähler at the Institute for Solid State Research - IFW Dresden - and got his diploma on phase formation and magnetism of thin Fe-Pd films. Later he joined the electrochemistry group of Prof. Ehrenberg at the Institute for Complex Materials at the IFW Dresden were he wrote his doctoral thesis about transport in Lithium-Oxygen cells. The same year he changed to our chair and became a member of Dr. Bobeth's group of computational material science where he worked on developing models for a range of electrochemical problems such as Lithium-ion cells, electrodeposition and trench superfilling. Currently he continues work as a research associate on battery simulation and is also involved in teaching computational materials science topics such as finite element method.

https://nano-tud.de/2130/



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