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 …

The use of well-defined materials in heterogeneous catalysis will open up numerous new
opportunities for the development of advanced catalysts to address the global challenges in …

Electrocatalysis plays a central role in clean energy conversion, enabling a number of
processes for future sustainable technologies. Atomic site electrocatalysts (ASCs), including …

Since the discovery of catalysis by Au nanoparticles (NPs), unique catalytic features of Au
have appeared that are greatly different from those of Pd and Pt. In this Review, we aimed to …

Supported metal nanoparticles are the most widely investigated heterogeneous catalysts in
catalysis community. The size of metal nanostructures is an important parameter in …

The atomic layer deposition (ALD) technique allows the synthesis of materials at the atomic
scale to be controlled. ALD has been adapted to design and prepare single-atom catalysts …

The field of single-atom catalysis (SAC) has expanded greatly in recent years. While there
has been much success develo** new synthesis methods, a fundamental disconnect …

Atomically dispersed noble metal catalysts often exhibit high catalytic performances, but the
metal loading density must be kept low (usually below 0.5%) to avoid the formation of metal …

Highly dispersed precious metals are critical to many important catalytic reactions and
strongly affect the activity of catalysts. In this work, a simple method to stabilize noble metals …

The current status of knowledge regarding the surfaces of the iron oxides, magnetite (Fe 3 O
4), maghemite (γ-Fe 2 O 3), haematite (α-Fe 2 O 3), and wüstite (Fe 1− x O) is reviewed. The …