Mechanism of hydrogen peroxide decomposition by manganese dioxide.Application: Manganese can decompose de·com·pose v. de·com·posed, de·com·pos·ing, de·com·pos·es v.tr. 1. To separate into components or basic elements. 2. To cause to rot. v.intr. 1. hydrogen peroxide under alkaline conditions, but the right combination of chemicals can make the solution more stable. Hydrogen peroxide is widely used in the pulp and paper industry The global pulp and paper industry is dominated by North American (United States, Canada), northern European (Finland, Sweden) and East Asian countries (such as Japan). Australasia and Latin America also have significant pulp and paper industries. , especially in the brightening of mechanical pulps. Catalytic processes that involve transition metal ions, particularly manganese, lead to the decomposition of peroxide under alkaline conditions. Because manganese dioxide is one of the more stable species among the different oxidation states of manganese, it is important to understand the chemistry involving Mn[O.sub.2] and hydrogen peroxide. The researchers studied the mechanism of Mn[O.sub.2]induced hydrogen peroxide decomposition by following the development of [Mn.sup.2+], [Mn.sup.3+], and [H.sub.2][O.sub.2] concentration during the course of reactions. They found that a small amount of Mn[O.sub.2] is converted to [Mn.sup2+] and [Mn.sup3+] as an initiation reaction. Afterwards, a redox redox (rē`dŏks): see oxidation and reduction. cycle involving [Mn.sup.2+] and [Mn.sup.3+] is responsible for the decomposition of peroxide. This initiation reaction is limited to the surface area of Mn[O.sub.2] particles, and an increase in the particle surface area leads to an increase in peroxide decomposition. At the same manganese concentration, [Mn.sup.2+] is more effective in catalyzing peroxide decomposition than is Mn[O.sub.2]. By converting [Mn.sup.2+] to Mn[O.sub.2], mills can reduce the Mn[O.sub.2]-induced decomposition of peroxide. Also effective in decreasing Mn[O.sub.2]-induced peroxide decomposition are additives such as silicates, EDTA EDTA: see chelating agents. , and DTPA DTPA diethylenetriamine pentaacetic acid; see pentetic acid. DTPA diethylenetriamine penta-acetic acid. , which suppress the concentrations of [Mn.sup.2+] and [Mn.sup.3+]. S! Wekesa and Ni are with the Limerick Pulp and Paper Research and Education Centre, University of New Brunswick The University of New Brunswick (UNB) is a Canadian university located in the province of New Brunswick. The university has two main campuses: the principal campus founded in 1785 in Fredericton and a smaller campus which was opened in Saint John in 1964. , Fredericton, NB, Canada, E3B 6C2. Email Ni at yonghao@unb.ca |
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