Microplastics (MPs), plastic particles smaller than 5 mm, are pervasive pollutants
challenging wastewater treatment due to their size and hydrophobicity. They infiltrate …

Although the highly porous crystalline metal–organic frameworks (MOFs) are promising
candidates as active electrocatalysts for CO2 reduction reaction (CO2RR), their poor …

Mismanagement of plastic waste results in its ubiquitous presence in the environment.
Despite being durable and persistent materials, plastics are reduced by weathering …

The high bond dissociation energy of C–C σ-bonds presents a challenge to chemical
conversions in organic synthesis, polymer degradation, and biomass conversion that require …

The exchangeable counterions in ionic metal–organic frameworks (IMOFs) provide facile
and versatile handles to manipulate functions associated with the ionic guests themselves …

Despite the synthesis of numerous cationic metal‐organic frameworks (CMOFs), their
counter anions have been primarily limited to inorganic Cl−, NO3−, ClO4−, BF4−, and …

The first example of a cationic cluster-based fcu–lanthanide metal–organic framework (MOF)
bearing an asymmetric linker, herein named UOTT-4, has been designed and fully …

Postsynthetic modification methods have emerged as indispensable tools for tuning the
properties and reactivity of metal–organic frameworks (MOFs). In particular, postsynthetic X …

As an efficient and environmental‐friendly strategy, electrocatalytic oxidation can realize
biomass lignin valorization by cleaving its aryl ether bonds to produce value‐added …

The catalytic oxidation reaction plays a pivotal role in scientific research and industrial
applications. However, the development of green catalysts with high conversion and …