Environmental catalysis has emerged as a scientific frontier in mitigating water pollution and
advancing circular chemistry and reaction microenvironment significantly influences the …

The application of homogeneous catalysts in water remediation is limited by their excessive
chemical and energy input, weak regenerability, and potential leaching. Heterogeneous …

The Baeyer–Villiger oxidation of ketones is a crucial oxygen atom transfer (OAT) process
used for ester production. Traditionally, Baeyer–Villiger oxidation is accomplished by …

Peroxymonosulfate-based electrochemical advanced oxidation processes (PMS-EAOPs)
have great potential for sustainable water purification, so an in-depth understanding of its …

The growing concern over micropollutants in aquatic ecosystems motivates the development
of electrochemical membrane reactors (EMRs) as a sustainable water treatment solution …

In recent years, photothermal-assisted Fenton-like degradation of organic pollutants has
become a prominent green method in environmental pollution control. Nevertheless, the …

Ion-exchange membranes have been widely used to harvest osmotic energy in the past
decades. However, conventional ion-exchange membranes suffer from low output power …

In the 5G era, Barium ferrite (BaFe12O19) has a pivotal position in both fundamental
research and frontier applications, such as magnetic recording, microwave absorption, and …

Abstract Development of a 3D self-standing porous anode that can efficiently generate• OH
at low potential remains exceptionally challenging for the electrofiltration technology. Herein …

The limited interaction between pollutants, oxidants, and the surface catalytic sites of single
atom catalysts (SACs) restricts the water decontamination effectiveness. Confining catalytic …