A Fe-N/FeS@C composite prepared via mechanical activation and pyrolysis for sulfite activation to degrade organic contaminants: Single atomic irons anchored into carbon matrix with encapsulated FeS nanoparticles - ScienceDirect

PDF) Critical analysis of the role of various iron-based heterogeneous catalysts for advanced oxidation processes: A state of the art review

PDF) Fabrication of Fe2O3 nanostructure on CNT for oxygen evolution reaction

Insights into enhanced peroxydisulfate activation with S doped Fe@C catalyst for the rapid degradation of organic pollutants - ScienceDirect

PDF) Critical analysis of the role of various iron-based heterogeneous catalysts for advanced oxidation processes: A state of the art review

A Fe-N/FeS@C composite prepared via mechanical activation and pyrolysis for sulfite activation to degrade organic contaminants: Single atomic irons anchored into carbon matrix with encapsulated FeS nanoparticles - ScienceDirect

A Fe-N/FeS@C composite prepared via mechanical activation and pyrolysis for sulfite activation to degrade organic contaminants: Single atomic irons anchored into carbon matrix with encapsulated FeS nanoparticles - ScienceDirect

Current approaches, emerging developments and functional prospects for lignin-based catalysts – a review - Green Chemistry (RSC Publishing) DOI:10.1039/D3GC00072A

High-efficiency degradation of carbamazepine by the synergistic electro- activation and bimetals (FeCo@NC) catalytic-activation of peroxymonosulfate - ScienceDirect

Fe–C-based materials: synthesis modulation for the remediation of environmental pollutants—a review

Nanotechnologies For Environmental Remediation-Giusy Lofrano, Giovanni Libralato, Jeanette Brown (Eds.), PDF, Nanoparticle

Sulfite activation for ciprofloxacin rapid degradation using an iron-based metal organic framework derivative in heterogeneous processes: Performance and mechanisms investigation - ScienceDirect

Nanomaterials March 2021 - Browse Articles

A Fe-N/FeS@C composite prepared via mechanical activation and pyrolysis for sulfite activation to degrade organic contaminants: Single atomic irons anchored into carbon matrix with encapsulated FeS nanoparticles - ScienceDirect

A Fe-N/FeS@C composite prepared via mechanical activation and pyrolysis for sulfite activation to degrade organic contaminants: Single atomic irons anchored into carbon matrix with encapsulated FeS nanoparticles - ScienceDirect

Journal of The Electrochemical Society - IOPscience