Thursday, July 18, 2019
Hydrogen Peroxide Essay
The same reaction is catalysed by theà enzymeà catalase, found in theà liver, whose main function in the body is the removal of toxic byproducts ofmetabolismà and the reduction ofà oxidative stress. The decomposition occurs more rapidly inà alkali, soà acidà is often added as a stabilizer. The liberation of oxygen and energy in the decomposition has dangerous side-effects. Spilling high concentrations of hydrogen peroxide on a flammable substance can cause an immediate fire, which is further fueled by the oxygen released by the decomposing hydrogen peroxide. High test peroxide, or HTP (also called high-strength peroxide) must be stored in a suitable, vented container to prevent the buildup of oxygen gas, which would otherwise lead to the eventual rupture of the container. In the presence of certain catalysts, such asà Fe2+à orà Ti3+, the decomposition may take a different path, withà free radicalsà such as HOà · (hydroxyl) and HOOà · (hydroperoxyl) being formed. A combination ofà H2O2à andà Fe2+à is known asà Fentonââ¬â¢s reagent. A common concentration for hydrogen peroxide isà 20-volume, which means that, when 1 volume of hydrogen eroxide is decomposed, it produces 20 volumes of oxygen. Aà 20-volumeconcentration of hydrogen peroxide is equivalent to 1. 667à mol/dm3à (Molar solution) or about 6%. Redox reactions In acidic solutions,à H2O2à is one of the most powerful oxidizers knownââ¬âstronger thanà chlorine,à chlorine dioxide, andà potassium permanganate. Also, through catalysis,à H2O2à can be converted intohydroxyl radicalsà (â⬠¢OH), which are highly reactive. Oxidant/Reduced product| Oxidationà potential, V| Fluorine/Hydrogen fluoride| 3. 0| Ozone/Oxygen| 2. 1| Hydrogen peroxide/Water| 1. 8| Potassium permanganate/Manganese dioxide. Chlorine dioxide/HClO| 1. 5| Chlorine/Chloride| 1. 4| In aqueous solutions, hydrogen peroxide can oxidize or reduce a variety of inorganic ions. When it acts as a reducing agent,à oxygenà gas is also produced. Inà acidicà solutionsà Fe2+à is oxidized toà Fe3+à (hydrogen peroxide acting as an oxidizing agent), 2à Fe2+(aq) +à H2O2à + 2à H+(aq) ; 2à Fe3+(aq) + 2H2O(l) andà sulfiteà (SO2? 3) is oxidized toà sulfateà (SO2? 4). However,à potassium permanganateà is reduced toà Mn2+à by acidicà H2O2. Underà alkalineà conditions, however, some of these reactions reverse; for example,à Mn2+à is oxidized toà Mn4+à (asà MnO2). Other examples of hydrogen peroxideââ¬â¢s action as a reducing agent are reaction withà sodium hypochloriteà orà potassium permanganate, which is a convenient method for preparingà oxygenà in the laboratory. NaOCl +à H2O2à >à O2à + NaCl +à H2O 2à KMnO4à + 3à H2O2à > 2à MnO2à + 2 KOH + 2à H2Oà + 3à O2 Hydrogen peroxide is frequently used as anà oxidizing agentà in organic chemistry. One application is for the oxidation ofà thioethersà toà sulfoxides. For example,à methyl phenyl sulfidecan be readily oxidized in high yield toà methyl phenyl sulfoxide: Ph? S? CH3à +à H2O2à > Ph? S(O)? CH3à +à H2O Alkaline hydrogen peroxide is used forà epoxidationà of electron-deficient alkenes such asà acrylic acids, and also for oxidation ofà alkylboranesà toà alcohols, the second step ofà hydroboration-oxidation. Formation of peroxide compounds Hydrogen peroxide is a weak acid, and it can formà hydroperoxideà orà peroxideà saltsà or derivatives of many metals. For example, on addition to an aqueous solution ofà chromic acidà (CrO3) or acidic solutions of dichromate salts, it will form an unstable blue peroxide CrO(O2)2. In aqueous solution it rapidly decomposes to form oxygen gas and chromium salts. It can also produce peroxoanions by reaction withà anions; for example, reaction withà boraxà leads toà sodium perborate, a bleach used in laundry detergents: Na2B4O7à + 4à H2O2à + 2 NaOH > 2à Na2B2O4(OH)4à +à H2O H2O2à convertsà carboxylic acidsà (RCOOH) into peroxy acids (RCOOOH), which are themselves used as oxidizing agents. Hydrogen peroxide reacts withà acetoneà to formà acetone peroxide, and it interacts withà ozoneà to formà hydrogen trioxide, also known asà trioxidane. Reaction withà ureaà producesà carbamide peroxide, used for whitening teeth. An acid-base adduct withà triphenylphosphine oxideà is a useful ââ¬Å"carrierâ⬠forà H2O2à in some reactions. Alkalinity Hydrogen peroxide can still form adducts with very strong acids. Theà superacidà HF/SbF5à forms unstable compounds containing theà [H3O2]+à ion. Domestic uses * Dilutedà H2O2à (between 3% and 8%) is used to bleach humanà hairà when mixed withà ammonium hydroxide, hence the phrase ââ¬Å"peroxide blondeâ⬠. * It is absorbed byà skinà upon contact and creates a local skinà capillaryà embolismà that appears as a temporary whitening of the skin. * It is used to whitenà bonesà that are to be put on display. 3%à H2O2à is effective at treating fresh (red) blood-stains in clothing and on other items. It must be applied to clothing before blood stains can be accidentally ââ¬Å"setâ⬠with heated water. Cold water and soap are then used to remove the peroxide treatedà blood. Some horticulturalists and users ofà hydroponicsà advocate the use of weak hydrogen peroxide solution in watering solutions. Its spontaneous decomposition releases oxygen that enhances a plantââ¬â¢s root development and helps to treatà root rotà (cellular root death due to lack of oxygen) and a variety of other pests. Laboratory tests conducted by fish culturists in recent years have demonstrated that common household hydrogen peroxide can be used safely to provide oxygen for small fish. Hydrogen peroxide releases oxygen by decomposition when it is exposed toà catalystsà such asà manganese dioxide. * Hydrogen peroxide is a strong oxidizer effective in controlling sulfide and organic-related odors in wastewater collection and treatment systems. It is typically applied to a wastewater system where there is a retention time of 30 minutes to 5 hours before hydrogen sulfide is released.
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