Symbolic presentation of the concept of an artificial chloroplast

Light-driven Molecular Catalysts in Hierarchically Structured Materials

Synthesis and Mechanistic Studies
Symbolic presentation of the concept of an artificial chloroplast
Graphic: ART-KON-TOR/FSU

Transregional Collaborative Research Center TRR234 - CataLight

CataLight is a transregional collaborative research center, funded by the German Research Foundation (DFG), hosted by the Friedrich Schiller University Jena and Ulm University. CataLight's project partners are at the Johannes Gutenberg University Mainz, Max Planck Institute for Polymer Research Mainz, the University of Vienna, the Leibniz Institute of Photonic Technology Jena (IPHT), the Technical University Kaiserslautern-Landau, the Argonne National Lab Chicago, and the Ohio State University. CataLight explores the controlled linkage of molecular light-driven catalytic units with hierarchically structured soft matter matrices to convert solar radiation into chemical reactivity.

CataLight Video

Image: Biofaction

Upcoming Events 

  1. Exhibition: "Of Light and Water. Striving for "Superficialty""
    • CataLight Workshop

    Artistic perspective on artificial photosynthesis at Kunstverein Ulm

    • presence
    • public
  2. CataLight Research Seminar Winter Term 2024/2025
    0:00 ·
    • CataLight Research Seminar

    The central platform for regular scientific exchange

    • presence
  3. CataLight Research Seminar Winter Term 2024/2025
    0:00 ·
    • CataLight Research Seminar

    The central platform for regular scientific exchange

    • presence
All events

Member of the CataLysis Network

CataLysis Network

Image: CRC-Network-CataLysis

The CataLysis network represents Germany's catalysis devoted collaborative research centers. Click on the link and learn more about our activies and the fundamental aspects of catalytic processes from different perspectives.

CRC Network CataLysisExternal link

Partner Institutions

Logo German Research Foundation (DFG)

Picture: DFG

Funded by the Deutsche Forschungsgemeinschaft, DFG (German Research Foundation​) - TRR 234 CataLight - 364549901