Institute of Catalysis Research and Technology (IKFT)

The Institute of Catalysis Research and Technology was founded 2011. Its mission is to bridge the gap between fundamental and applied research and the development of new technologies and products in the field of catalysis and process technology of catalyzed processes. The focus of our work is the sustainable utilization of alternative feedstocks and their conversion into energy carriers intermediates. This includes the development of new catalytic systems based on a fundamental understanding of processes on a molecular level. The institute receives basic funding from the Helmholtz Association's program-oriented funding, largely in the Energy research field in the program Materials and Technologies for the Energy Transition.


Workshop - Technical Nanocatalysts in Industry

Catalysis has a tremendous impact on industrial production and manufacturing processes. It enables the synthesis of chemicals, energy conversions, or exhaust gas cleaning. Energy efficiency in these fields contributes towards a sustainable energy system. In this context, the project Energy Efficiency for Industry (EE4InG) investigates the potentials of nanostructured catalysts for highly efficient applications in the industry. For this purpose, the IKFT hosted the online workshop “Technical Nanocatalysts in Industry” on May 7th, 2021. Representatives from the industry, academia, and policymakers joined the event and enabled an exciting discussion on potentials, perspectives, and future applications of nanocatalysts. Ideas have been collected and structured in a digital world café and led to a comprehensive outlook for future research. The project EE4InG is founded by the Federal Ministry for Economic Affairs and Energy and hosted by the Projektträger Jülich. For further information, please get in contact with Prof. Dr.-Ing. Jörg Sauer or Philipp Haltenort.

Spatially-resolved insights into local activity and structure of Ni-based CO2 methanation catalysts in fixed-bed reactors

The catalytic hydrogenation of CO2 is a promising way to store large amounts of renewable energy while reducing CO2 emissions (P2X concept). Marc-André Serrer (IKFT), Matthias Stehle (ITCP) and further colleagues at IKFT, ITCP and IAM-AWP uncovered the reaction progress along a conventional Ni-based and an advanced Ni-Fe-based catalyst during CO2 methanation in a fixed-bed reactor. By using a dedicated new setup, they were able to reveal changes in activity, selectivity, and temperature along the catalyst bed. Complementary spatially resolved structural investigations by X-ray absorption spectroscopy showed that the oxidation state of Fe is strongly influenced by the increasing amount of water towards the end of the catalyst bed. Furthermore, infrared spectroscopy unraveled that Fe species promote the higher activity of the bimetallic catalyst by protecting active Ni0 centers from strongly adsorbed CO. Hence, this example underlines not only the importance to consider gradients in chemical reactors but that they even can be exploited for better understanding.

30 Years Institute for Hot Chemistry at the Nuclear Research Center Karlsruhe

The Institute for Hot Chemistry, IHCh, predecessor institute of our today's IKFT, was founded in 1959 with the intention of researching possibilities for reprocessing spent nuclear fuel.  The tasks included the development of innovative processes and their qualification for industrial application. Over a period of 30 years, the scientific and technical challenges consisted primarily in separating radioactive constituents with extreme separation factors from the highly spent nuclear fuel of power reactors with high yields and almost zero emissions reliably and with high plant availability. The most important extractive and electrochemical processes were investigated in lab and pilot scale with the largest handling permit of 5 kg Plutonium. Technical work was supplemented by fundamental studies on radio isotopes and process modeling. Finally, IHCh contributed to the large GALLEX experiment on the detection of solar neutrinos by a large radioisotope-detector in Italy´s underground laboratory. This historical development and the utilisation of the diverse competences for new research projects in the 1990s are summarized in an article published in Chemie Ingenieur Technik in June.



IKFT Seminar: Monday, 27th of Sep. 2021, at 2 pm

Alumina-mediated pi-activation of alkynes

Dr. Vladimir Akhmetov, Post-Doctoral Researcher

(Martin-Luther-University, Halle, Germany)