Research Articles
The Invisible Coat: How Polymer Brushes are Revolutionizing Surface Science
Explore the fascinating world of polymer brushes - nanoscale molecular chains that are transforming surface science with applications in medicine, smart materials, and sensing technology.
Catalysis 1987: The Atomic Sleuths and the Quest for Better Chemistry
Exploring the landmark 1987 catalysis conference that revolutionized our atomic-level understanding of chemical catalysts and surface science.
The Invisible Engineers: How Machine Learning is Revolutionizing the Science of Surfaces
Exploring how machine learning is transforming computational surface science and enabling breakthroughs in materials design
Bridging the Divide: How Scientists Are Connecting Atomic Insights to Industrial Catalysis
Exploring how scientists are bridging the pressure and materials gap between surface science and industrial catalysis through innovative approaches.
The Invisible Workshop: How Surface Science is Building a New World at the Nanoscale
Explore how surface science and nanoscale catalysis are revolutionizing materials engineering through atomic-level precision.
The Atomic Race to Cleaner Air: How Surface Science is Revolutionizing Car Exhaust
Discover how surface science and atomic-level research are transforming catalytic converters for cleaner vehicle emissions and better air quality.
The Reproducibility Problem in Photocatalysis: Why Groundbreaking Results Often Can't Be Repeated
Exploring the reproducibility crisis in photocatalysis research and solutions for more reliable scientific results in surface science.
Bridging the Gap: How Surface Science is Unlocking the Secrets of Cobalt Catalysts
Exploring how surface science is bridging pressure and material gaps in cobalt Fischer-Tropsch catalysts for sustainable fuel production.
The Invisible Skin of a Wonder Material: A Theoretical Journey into Zinc Oxide
Explore the fascinating world of zinc oxide surfaces through theoretical science, computational experiments, and quantum mechanics.
The Invisible Dance: How Computers Decode Molecules on Metal Surfaces
Explore how computational models like DFT+vdW(surf) are revolutionizing our understanding of molecular adsorption on metal surfaces and enabling new material designs.