A critical review of mineral–microbe interaction and co-evolution: mechanisms and applications
Mineral–microbe interactions play important roles in environmental change, biogeochemical
cycling of elements and formation of ore deposits. Minerals provide both beneficial (physical …
cycling of elements and formation of ore deposits. Minerals provide both beneficial (physical …
Oxide–and silicate–water interfaces and their roles in technology and the environment
Interfacial reactions drive all elemental cycling on Earth and play pivotal roles in human
activities such as agriculture, water purification, energy production and storage …
activities such as agriculture, water purification, energy production and storage …
Sustainable Fe (III)/Fe (II) cycles triggered by co-catalyst of weak electrical current in Fe (III)/peroxymonosulfate system: Collaboration of radical and non-radical …
Herein, an electrochemical (EC) system was applied as “co-catalyst” to enhance the
activation of peroxymonosulfate (EC/Fe (III)/PMS) for efficient Sulfamethoxazole (SMX) …
activation of peroxymonosulfate (EC/Fe (III)/PMS) for efficient Sulfamethoxazole (SMX) …
Molecular-level understanding of metal ion retention in clay-rich materials
Clay minerals retain or adsorb metal ions in the Earth's critical zone. Rocks, sediments and
soils rich in clay minerals can concentrate rare earth elements (REEs) in ion adsorption-type …
soils rich in clay minerals can concentrate rare earth elements (REEs) in ion adsorption-type …
Electroactive Fe-biochar for redox-related remediation of arsenic and chromium: distinct redox nature with varying iron/carbon speciation
Electroactive Fe-biochar has attracted significant attention for As (III)/Cr (VI) immobilization
through redox reactions, and its performance essentially lies in the regulation of various …
through redox reactions, and its performance essentially lies in the regulation of various …
Enhanced formation of 6PPD-Q during the aging of tire wear particles in anaerobic flooded soils: The role of iron reduction and environmentally persistent free radicals
Rapid urbanization drives increased emission of tire wear particles (TWPs) and the
contamination of a transformation product derived from tire antioxidant, termed as N-(1, 3 …
contamination of a transformation product derived from tire antioxidant, termed as N-(1, 3 …
Redox oscillations activate thermodynamically stable iron minerals for enhanced reactive oxygen species production
G Zhao, M Tan, B Wu, X Zheng, R Xiong… - Environmental …, 2023 - ACS Publications
Reactive oxygen species (ROS) play key roles in driving biogeochemical processes. Recent
studies have revealed nonphotochemical electron transfer from redox-active substances …
studies have revealed nonphotochemical electron transfer from redox-active substances …
Electrochemical‐Mediated Regenerable FeII Active Sites for Efficient Uranium Extraction at Ultra‐Low Cell Voltage
Y Wang, Y Wang, M Song, S Chen, J Wei… - Angewandte …, 2023 - Wiley Online Library
Nano‐reduced iron (NRI) is a promising uranium adsorbent due to its strong reducibility and
good selectivity, but it still faces the challenges of slow kinetics, limited and non‐renewable …
good selectivity, but it still faces the challenges of slow kinetics, limited and non‐renewable …
Radical perfluoroalkylation of aliphatic substrates
A selection of perfluoroalkylation reactions of aliphatic substrates that display
methodological and synthetic amplitude will be studied, giving examples of their …
methodological and synthetic amplitude will be studied, giving examples of their …
Persistent free radicals in biochar enhance superoxide-mediated Fe (III)/Fe (II) cycling and the efficacy of CaO2 Fenton-like treatment
S Zhang, Y Wei, J Metz, S He, PJJ Alvarez… - Journal of Hazardous …, 2022 - Elsevier
Abstract Superoxide radicals (O 2•-) produced by the reaction of Fe (III) with H 2 O 2 can
regenerate Fe (II) in Fenton-like reactions, and conditions that facilitate this function enhance …
regenerate Fe (II) in Fenton-like reactions, and conditions that facilitate this function enhance …