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Prof. Dr. Ulf-Peter Apfel | Chemistry | Editorial Board Member 

Professor | Ruhr University Bochum & Fraunhofer UMSICHT | Germany

Ulf-Peter Apfel is a leading figure in modern electrocatalysis and renewable energy chemistry, with a research career defined by major contributions to bio-inspired catalysis, hydrogen evolution, CO₂ reduction, and sustainable energy conversion. With over 8,300 citations, an h-index of 53, and more than 136 peer-reviewed publications, his work demonstrates both exceptional productivity and enduring scientific impact. His research bridges fundamental inorganic and bioinorganic chemistry with applied electrochemical energy technologies, particularly through the design of molecular and heterogeneous electrocatalysts inspired by natural metalloenzymes such as [FeFe]-hydrogenases. His highly cited studies in journals like Angewandte Chemie, Nature Communications, Chemical Society Reviews, and ACS Catalysis have shaped global understanding of hydrogen generation, oxygen reduction and evolution reactions, and carbon dioxide electroreduction. Notably, his work on enzyme-inspired iron porphyrins, pentlandite-based electrocatalysts, cobalt and manganese corrole complexes, and metal–organic framework supported catalysts has established new benchmarks for efficiency, selectivity, and sustainability in electrocatalysis. His interdisciplinary collaborations span spectroscopy, protein crystallography, materials science, and industrial chemistry, reflecting the broad translational relevance of his research. Beyond laboratory innovation, his scholarship also addresses the critical challenge of scaling fundamental discoveries toward real-world energy applications, as reflected in his influential work on bridging the “valley of death” between basic research and applied electrolysis. As a professor at Ruhr University Bochum and head of electrosynthesis at Fraunhofer UMSICHT, he plays a central role in shaping future directions in green hydrogen, artificial photosynthesis, and carbon-neutral fuel production. Overall, his career represents a powerful integration of molecular design, mechanistic insight, and technological relevance, positioning him as one of the most influential scientists in contemporary renewable energy and electrocatalysis research.

Profile: Google Scholar

Featured Publications

  1. Xie, L., Zhang, X. P., Zhao, B., Li, P., Qi, J., Guo, X., Wang, B., Lei, H., & Zhang, W. (2021). Enzyme-inspired iron porphyrins for improved electrocatalytic oxygen reduction and evolution reactions. Angewandte Chemie, 133(14), 7654–7659.

  2. Kleinhaus, J. T., Wittkamp, F., Yadav, S., Siegmund, D., & Apfel, U.-P. (2021). [FeFe]-hydrogenases: Maturation and reactivity of enzymatic systems and overview of biomimetic models. Chemical Society Reviews, 50(3), 1668–1784.

  3. Liang, Z., Guo, H., Zhou, G., Guo, K., Wang, B., Lei, H., Zhang, W., & Zheng, H. (2021). Metal–organic-framework-supported molecular electrocatalysis for the oxygen reduction reaction. Angewandte Chemie, 133(15), 8553–8557.

  4. Konkena, B., Junge Puring, K., Sinev, I., Piontek, S., Khavryuchenko, O., Dürholt, J. P., Schökel, A., Schuhmann, W., Muhler, M., & Apfel, U.-P. (2016). Pentlandite rocks as sustainable and stable efficient electrocatalysts for hydrogen generation. Nature Communications, 7(1), 12269.

  5. Gonglach, S., Paul, S., Haas, M., Pillwein, F., Sreejith, S. S., Barman, S., De, R., Müllegger, S., Apfel, U.-P., & Köller, S. (2019). Molecular cobalt corrole complex for the heterogeneous electrocatalytic reduction of carbon dioxide. Nature Communications, 10(1), 3864.

Ulf-Peter Apfel’s research advances the frontiers of bio-inspired electrocatalysis and sustainable energy conversion, delivering transformative solutions for green hydrogen production and CO₂ utilization. His work directly accelerates the global transition toward carbon-neutral energy technologies by bridging fundamental chemistry with scalable industrial applications.

Ulf-Peter Apfel | Chemistry | Editorial Board Member

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