Hexagonal boron nitride (hBN) monolayers have attracted considerable interest as
atomically thin sp 2-hybridized sheets that are readily synthesized on various metal …

Sub‐nanometer‐sized metal clusters, having dimensions between metal atoms and
nanoparticles, have attracted tremendous attention in the recent past due to their unique …

The stability of supported nanocatalysts is crucial to meeting environmental and energy
challenges and necessitates fundamental theory to relieve trial-and-error experimentation …

In this Perspective, we review recent studies of size-selected cluster deposition for catalysis
applications performed at the US DOE National Laboratories, with emphasis on work at …

This comprehensive critical review combines, for the first time, recent advances in nanoscale
surface chemistry, surface science, DFT, adsorption calorimetry, and in situ XRD and TEM to …

Employing rationally designed model systems with precise atom-by-atom particle size
control, we demonstrate by means of combining noninvasive in situ indirect nanoplasmonic …

Interactions between catalytically active metal particles and reactant gases depend strongly
on the particle size, particularly in the subnanometer regime where the addition of just one …

The development of low-cost, high-performance catalysts at the atomic level has drawn
scientists' attention due to the high atom efficiency, unique structure, and potentially high …

The sensitivity, or insensitivity, of catalysed reactions to catalyst structure is a commonly
employed fundamental concept. Here we report on the nature of nano-catalysed ethylene …

Identifying the ripening modes of supported metal nanoparticles used in heterogeneous
catalysis can provide important insights into the mechanisms that lead to sintering. We report …