Zeolites with ordered microporous systems, distinct framework topologies, good spatial
nanoconfinement effects, and superior (hydro) thermal stability are an ideal scaffold for …

Zeolites are a family of microporous crystalline materials, which, since the 1940s, have had
an indispensable role in the chemical industry as catalysts, adsorbents and ion exchangers …

Supported single-metal atom catalysts (SACs) are constituted of isolated active metal
centers, which are heterogenized on inert supports such as graphene, porous carbon, and …

Tuning the metal‐support interaction of supported metal catalysts has been found to be the
most effective approach to modulating electronic structure and improving catalytic …

Single-atom catalysts (SACs), consisting of individual metal atoms dispersed on a support,
attract attention due to their unique reactivity, efficient use of precious metals, and precise …

Photoelectrochemical reaction is emerging as a powerful approach for biomass conversion.
However, it has been rarely explored for glucose conversion into value-added chemicals …

The engineering of a series of multienzyme‐mimicking covalent organic frameworks (COFs),
COF‐909‐Cu, COF‐909‐Fe, and COF‐909‐Ni, as pyroptosis inducers, remodeling the …

Metal single-atom catalysts are becoming very popular owing to their remarkable and
fascinating atomic-scale utilization efficiency, electrocatalytic activity, and selectivity …

Hydrogen is widely believed to be a promising fuel to solve the global energy crisis and
environmental issues. The catalytic system represented by metal‐supported catalysts is an …

Single-site catalysts (SSCs) have long been considered to be promising candidates for
heterogeneous catalysis due to the maximum exposure of metal sites at the catalytic …