This review presents a critical assessment of the kinetics and mechanisms of the oxidation of
organic compounds, X (organosulfur compounds, amines, phenols, alcohols, hydrocarbons …

Over the past few years, the higher oxidation states of iron (ferrate, Fe (VI)) are of interest
because of their involvement in reactions of environmental, industrial, and biological …

Fe (VI) has received increasing attention since it can decompose a wide range of trace
organic contaminants (TrOCs) in water treatment. However, the role of short-lived Fe (IV) …

Sonodynamic therapy (SDT) is noninvasive and possesses high body‐penetration depth,
showing great potential for the treatment of deep‐seated solid tumors. The efficacy of SDT …

The oxidation of organosulfur compounds requires the transfer of oxygen atoms and is
important in decontamination of chemical warfare agents, desulfurization of fossil fuel for …

Fe (VI) compound, such as K2FeO4, is a powerful oxidizing agent. Its oxidative potential is
higher than KMnO4, O3 and Cl2. Oxidation activity of Fe (VI) compounds can be adjusted by …

The redox kinetics involving the reaction of N, N′-phenylenebis (salicyalideneiminato)
cobalt (III)([CoSalophen]+) and l-cysteine (LSH) was studied using pseudo-first order …

The kinetics and mechanism of the oxidation of the sulfite (SO32−), thiosulfate (S2O32−) and
dithionite (S2O42−) ions by ferrate (FeO42−) ions was studied under pseudo-first-order …

The novel behavior of ferrate (Vl) has received an increased attention for its possible
applications in various purposes particularly in the treatment of waste/effluent waters. It …

The oxidation of ethanethiol (C 2 H 5 SH), as a representative odorous pollutant, by ferrate
(Fe (VI)) in aqueous alkaline solution was investigated to understand its kinetics …