Research Articles
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.
Lonely Atoms with Special Gifts: The Tiny Revolution in Catalysis
Explore how single-atom alloys are revolutionizing chemical catalysis by breaking linear scaling relationships, enabling more efficient and sustainable chemical processes.
Catalysis by Design: The Atomic Architects Revolutionizing Chemistry
Exploring the revolutionary world of single-site heterogeneous catalysts and their potential to transform chemistry through atomic precision.
Building a Cleaner Future: The Molecular Mastery of PNNL's Catalysis Research
Explore how PNNL's catalysis research in 2007 pioneered sustainable energy solutions through molecular-level innovation, hydrogen economy development, and microchannel reactor technology.
The Catalyst Revolution: How Dynamic Duos and Smart Clusters are Transforming Chemistry
Exploring the paradigm shift in catalytic science from static to dynamic systems, including ligand relay catalysis and AI-driven cluster research.
Bridging the Gap Between Surface Science and Industrial Catalysis
Exploring how groundbreaking research is building a bridge between surface science and industrial catalysis, leading to more efficient and sustainable chemical processes.
Bridging the Scales: How Catalysis Connects Molecular Worlds to Our Macroscopic Reality
Explore how catalysis bridges the gap between molecular science and macroscopic applications, featuring MOFs, water harvesting, and sustainable solutions.
The Molecular Lock and Key: How Supramolecular Catalysis is Revolutionizing Chemistry
Explore how supramolecular catalysis is transforming chemical synthesis through rational catalyst optimization and molecular recognition principles.
The Silent Engine: How Modern Catalysis is Building a Sustainable Future
Explore cutting-edge developments in catalysis that are pushing scientific frontiers and shaping a more sustainable future through enzyme-photocatalyst cooperation and electrocatalytic CO₂ conversion.
The Invisible Handshake: How Strong Metal-Oxide Interactions Shape Our World
Exploring Strong Metal-Support Interactions (SMSI) and their role in creating efficient catalysts for sustainable technologies.