Phosphorus (P) is an essential microelement for biota. Phosphate minerals obtained
through subsurface mining are the main sources of P. Phosphate-bearing rocks are …

In nature, nonheme iron enzymes use dioxygen to generate high-spin iron (IV)= O species
for a variety of oxygenation reactions. Although synthetic chemists have long sought to …

Supporting Fe catalysts on N doped carbon (Fe-NC) renders a promising way towards
peroxymonosulfate (PMS) activation for water decontamination, but constructing high …

High-valent iron-oxo species (FeIV= O) has been a long-sought-after oxygen transfer
reagent in biological and catalytic chemistry but suffers from a giant challenge in its gentle …

Abstract Hydroxyglutarate synthase (HglS) from Pseudomonas putida is an iron (II)
dependent non-heme oxygenase, which is responsible for the biodegradation of 2 …

Constructing catalytic membrane simultaneously displaying high permeability, selectivity
and antifouling performance in water treatment remains challenging. Herein, the surface and …

Non‐heme mononuclear iron dependent (NHM− Fe) enzymes exhibit exceedingly diverse
catalytic reactivities. Despite their catalytic versatilities, the mononuclear iron centers in …

S= 2 FeIV═ O centers generated in the active sites of nonheme iron oxygenases cleave
substrate C–H bonds at rates significantly faster than most known synthetic FeIV═ O …

High-valent Fe (IV)–oxo intermediates, found in enzyme active sites, are excellent targets for
biomimetic design of molecular catalysts for C–H bond activation. C–H bonds in inert …

Photocatalytic CH 4 conversion to CH 3 OH under mild conditions is undoubtedly an efficient
strategy to realize CH 4 upgrading. In this work, in-situ formed highly reactive Fe IV= O …