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16. May 2022

How electron spin coupling affects catalytic oxygen activation

New THz EPR spectroscopy method allows insights into previously inaccessible spin-spin interactions and the function of novel catalytic and magnetic materials

catalytic activation of molecular oxygen © T. Lohmiller/HZB
Illustration: catalytic activation of molecular oxygen by copper complexes © T. Lohmiller/HZB

A team at the EPR4Energy joint lab of HZB and MPI CEC has developed a new THz EPR spectroscopy method to study the catalytic activation of molecular oxygen by copper complexes. The method allows insights into previously inaccessible spin-spin interactions and the function of novel catalytic and magnetic materials.

Molecular oxygen (O2) is a preferred oxidant in green chemistry. However, activation of O2 and control of its reactivity requires precise adjustment of the spin states in the reactive intermediates. In nature, this is achieved by metalloenzymes that bind O2 at iron or copper ions, and spin-flip processes are enabled through metal-mediated spin-orbit couplings allowing for mixing of states. In the case of type III dicopper metalloproteins involved in oxygen transport and oxygenation of phenolic substrates, little was known about the pathway leading to a dicopper peroxo key species with a stabilized singlet ground state after triplet oxygen binding.

Through a sophisticated ligand design, the research group led by Prof. Franc Meyer at the University of Göttingen has now succeeded in isolating a series of model complexes that mimic the initial stage of oxygen binding at dicopper sites and exhibit a triplet ground state. Researchers from the EPR4Energy joint lab of HZB and MPI CEC complemented this breakthrough in chemical synthesis with a new approach of THz-EPR spectroscopy. This method, developed in Alexander Schnegg's group at MPI CEC, was applied for the first time to study the function-determining antisymmetric exchange in coupled dicopper(II) complexes.

The new method allowed for detection of the entirety of spin state transitions in the system, which leads to propose antisymmetric exchange as an efficient mixing mechanism for the triplet-to-singlet intersystem crossing in biorelevant peroxodicopper(II) intermediates. Thomas Lohmiller, one of the first authors of the study, explains, “In addition to the knowledge gained about this important system, our method opens up the possibility of studying previously inaccessible spin-spin interactions in a variety of novel catalytic and magnetic materials.”
 

Publication:

Antisymmetric Spin Exchange in a μ‑1,2-Peroxodicopper(II) Complex with an Orthogonal Cu–O–O–Cu Arrangement and S = 1 Spin Ground State Characterized by THz-EPR.
T. Lohmiller, C. Spyra,  S. Dechert, S. Demeshko, E. Bill, A. Schnegg, F. Meyer
JACS Au (2022). DOI: 10.1021/jacsau.2c00139
 

Contact:

Helmholtz-Zentrum Berlin für Materialien und Energie
Department Spins in Energy Conversion and Quantum Information Science

Dr. Alexander Schnegg
Email: alexander.schnegg(at)helmholtz-berlin.de

Dr. Thomas Lohmiller
Phone: +49 30 8062-13114
Email: thomas.lohmiller(at)helmholtz-berlin.de

 

Source: HZB, 09 May 2022

Research Photonics / Optics Microsystems / Materials

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The development of the Science and Technology Park Berlin Adlershof was and is co-financed by the European Union namely by EFRE. This concerns infrastructure development like construction of technology centres. Furthermore EFRE is used for international projects.

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