Recently, Professor Max HamedifromKTH Royal Institute of Technology was invited to visit the School of Materials Science and Engineering at Ocean University of China and gave a lecture at Ocean University of China Lecture 180 of the Overseas Famous Teachers Lecture Hall, with the lecture titletitled Electrochemistry of 2D Carbonaceous Nanomaterials. Faculty and student representatives from relevant research directions attended this lecture.
In his lecture, Professor Hamedisystematically explained the application of two-dimensional carbon-based nanomaterials in electrochemical energy storage and flexible electronics, emphasizingMXene, biomass carbon, and other materials as mixed ionsPreparation, assembly, and electrochemical applications of electronic conductors. He pointed out that these two-dimensional nanomaterials possess excellent electron transport and ion conduction capabilities, and have broad application prospects in fields such as electrochemical batteries and flexible electronic devices. After the lecture, the attending teachers and students engaged in lively discussions about the content of the lecture.
Professor Max Hamedihas long been engaged in research in intelligent nanofunctional materials, renewable energy storage, and nanofluidic molecular diagnostics, with research results published inNature Materials,Nature Communications, andothers Advanced Materials, and other international high-level journals, with acclaim from the European Research Council (ERC), Knut, and Alice Research projects funded by Knut and Alice Wallenberg, Energimyndigheten, and others. He is also a co-founder of several technology companies (Simplygon,etc.), and holds significant influence in both academic research and industrial applications.
The hosting of this Overseas Renowned Lecture Hall further strengthened the exchange and cooperation between the School of Materials Science and Engineering at Ocean University of China and international high-level research teams, broadened the academic horizons of faculty and students, and injected new momentum into the school's research and talent cultivation in the fields of two-dimensional functional materials and flexible electronics.
Text/Photos: Zhang Wenyu
