The 2D nanosheets of metal–organic frameworks (MOFs) have recently emerged as a
promising material that makes them valuable in widespread electrocatalytic fields due to …

Catalysts play a crucial role in water electrolysis by reducing the energy barriers for
hydrogen and oxygen evolution reactions (HER and OER). Research aims to enhance the …

The regulation of metal-support interaction is one of the productive strategies to enhance
volatile organic compounds (VOCs) deep degradation. Herein, Pd@ ZrO 2 catalysts were …

Modulation of the local electronic structure and microenvironment of catalytic metal sites
plays a critical role in electrocatalysis, yet remains a grand challenge. Herein, PdCu …

Metal nanoclusters (NCs) with atomically precise structures have sparked interest in
catalysis. Unfortunately, their high aggregation tendency and the spatial resistance of …

Photocatalytic reduction is a promising strategy for uranium extraction from seawater.
However, due to the lack of accessible active sites, current photocatalysts work poorly under …

Herein, a series of rod-like MnCeO x are synthesized by pyrolyzing Mn/Ce-BTC for toluene
oxidation. The 3Mn2Ce catalyst exhibits superior catalytic performance and stability under …

Designing definite metal‐support interfacial bond is an effective strategy for optimizing the
intrinsic activity of noble metals, but rather challenging. Herein, a series of quantum‐sized …

While the microenvironment around catalytic sites is recognized to be crucial in
thermocatalysis, its roles in photocatalysis remain subtle. In this work, a series of sandwich …

Lanthanide–organic frameworks (LnOFs) are a class of promising catalysts on a large
number of organic reactions because of the higher coordination number of Ln3+ ions …