Oschatz group

Chair for Chemistry of Materials for Energy Applications​

Welcome to the Homepage of the Oschatz group!
Oschatz group
Image: Anne Günther (University of Jena)
Twitter
AG Oschatz @ Twitter
LinkedIn
AG Oschatz@LinkedIn
Notice

If you like our research and want to be a future PhD student in our group, please do not hesitate to contact us at any time or check current job offers (open positions).

Currently, we are happy to welcome new PhD students in these research areas:

  • Sodium-ion-batteries 
  • Electrocatalysis (Nitrogen reduction, CO2 reduction) 
  • Porous (carbon)materials: CO2 capture, Gas separation, H2 storage  

At any time we are pleased to host students for a bachelor or master thesis (topics). Please do not hesitate to contact us.

If our PhD students need support, we are also looking for motivated and qualified student assistants. 

A first outline of our research topics can be found on our homepage (topics). 

News

Research · Team
For the first time in its history, Jena was the heart of the porous material world! The German Zeolite Conference gathered experts from all different aspects of porous materials and brought together reknown scientists from all over the world. 
German Zeolite Conference Oschatz group
Image: Oschatz Group
Research
Our new binational project "OILSANDSBATT" synergistically combines the expertises of material science and battery research by exploring the potential of oil sand, an abundant Canadian ressource, as promising feedstock for the fabrication of battery electrode materials.
DFG project "OILSANDSBATT"
Image: AG Oschatz
Research
Within our new project we seek to utilize local ressources such as lignin to produce high-performance Sodium-ion batteries based on a local value chain. The thuringian project team is versatile and includes the Fraunhofer IKTS, FSU Jena as well as Mercer (lignin manufacturer).
ThüNaBsE Project
Image: ThüNaBsE Project

Research Overview

Rationale Materialsynthese
Porous Materials and Interfacial Phenomena
We develop novel and innovative approaches towards the synthesis of nano-structured carbon materials displaying both, a defined pore structure as well as chemical composition. Such model materials serve to fundamentally understand interfacial phenomena as they occur in energy and environment-related applications.

Contact (Secretariat)

Chair for Chemistry of Materials for Energy Applications​

Postal address:
Friedrich-Schiller-Universität Jena
CEEC – Center for Energy and Environmental Chemistry Jena
Institut für Technische Chemie und Umweltchemie
Warenschleuse ZAF – Philosophenweg 7
07743 Jena