Researchers at Lund University and Hokkaido University have successfully synthesized nanostructured two-dimensional (2D) gold monolayers, marking a significant breakthrough in nanomaterial engineering. Using a novel bottom-up approach, they grew gold monolayers on iridium substrates while embedding boron atoms at the interface, stabilizing the gold into a hexagonal structure with nanoscale triangular patterns. This method enhances thermal stability and structural integrity, overcoming traditional challenges of stabilizing 2D metallic forms. Advanced characterization confirmed a transformation in gold’s electronic properties, unlocking unique behaviors suitable for applications in catalysis, electronics, and energy conversion. This development paves the way for further exploration of 2D metals in advanced technologies.
For more details, please continue reading the full article under the following link:
In general, if you enjoy reading this kind of scientific news articles, I would also be keen to connect with fellow researchers based on common research interests in materials science, including the possibility to discuss about any potential interest in the Materials Square cloud-based online platform ( www.matsq.com ), designed for streamlining the execution of materials and molecular modelling simulations!
Best regards,
Dr. Gabriele Mogni
Technical Consultant and EU Representative of Virtual Lab Inc., the parent company of the Materials Square platform
Website: Home | Virtual Lab Inc.
Email: gabriele@simulation.re.kr
#materials #materialsscience #materialsengineering #computationalchemistry #modelling #chemistry #researchanddevelopment #research #MaterialsSquare #ComputationalChemistry #Tutorial #DFT #simulationsoftware #simulation