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Mark Hermann Rümmeli
讲座教授
Professor Mark Hermann Rümmeli is an internationally renowned expert in low-dimensional nanomaterials and transmission electron microscopy (TEM). His work integrates synthesis, functionalization, and in-situ high-resolution TEM to uncover and engineer the microstructures that govern performance in energy storage, catalysis, and semiconductor materials. He has authored more than 450 peer-reviewed publications (h-index 89), reflecting sustained impact across nanotechnology and advanced microscopy.
Professor Rümmeli is a Fellow of the Royal Society of Chemistry and the Institute of Physics (Chartered Physicist; Chartered Scientist). He also holds fellowships with the Institute of Materials, Minerals & Mining and the Institution of Engineering & Technology, and he is a Senior Member of IEEE. His career spans China, Germany, South Korea, the Czech Republic, and Poland. At Soochow University, he served as Chair Professor and Commissioner for International Cooperation, established the Laboratory for Integrated Nanomaterials and Electron Microscopy Laboratories for the College of Energy, and helped catalyze international collaborations. Earlier, at IFW Dresden, he founded the Molecular Nanostructures Group and secured a double Cs-corrected aberration TEM; at Sungkyunkwan University/IBS he designed and installed a comprehensive electron-microscopy suite to enable atom-level in-situ studies. Across these roles, he has built laboratories, mentored early-career scientists, and advanced globally networked research linking cutting-edge characterization to practical materials innovation.
Current Role and Research
Professor Rümmeli currently holds the prestigious ERA Chair position at the Ostrava University of Science and Technology (VSB), where he leads a landmark five-year project funded by the European Research Executive Agency, with a total budget of 2.5 million euros.
Main research directions include:
In-situ transmission electron microscopy of nano and energy materials
Electron beam emergent additive manufacturing
New energy storage materials and devices