Metal atoms dispersed on the oxide supports constitute a large category of single-atom
catalysts. In this review, oxide supported single-atom catalysts are discussed about their …

Single‐atom catalysts (SACs) bridge homo‐and heterogeneous catalysis because the active
site is a metal atom coordinated to surface ligands. The local binding environment of the …

Understanding how the local environment of a “single-atom” catalyst affects stability and
reactivity remains a challenge. We present an in-depth study of copper1, silver1, gold1 …

Exploring highly active earth-abundant bifunctional electrocatalysts for water splitting at a
high output is essential for the forthcoming hydrogen economy. Non-noble Fe 3 O 4 catalyst …

Do** magnetite surfaces with transition-metal atoms is a promising strategy to improve the
catalytic performance toward the oxygen evolution reaction (OER), which governs the …

It now seems clear that supported metal adatoms can be effective catalysts for some
reactions, but how to make best use of this phenomenon remains an open question. Most …

In this article, inclusion of iron oxide (Fe 3 O 4) in amine functional silica (SiO 2-NH 2)
support is attempted to see any improvement in catalytic property for anchored bimetallic Cu …

The structure of a catalyst often changes in reactive environments, and following the
structural evolution is crucial for the identification of the catalyst's active phase and reaction …

Modulating the shape and crystal-phase of nano-sized iron-oxide particles play an essential
role in the design of highly efficient heterogeneous catalysts. Iron oxides usually present as …

Single‐atom (SA) catalysis presently receives much attention with its promise to decrease
the cost of the active material while increasing the catalyst's performance. However, key …