• Source: Selenic acid
    • Selenic acid is the inorganic compound with the formula H2SeO4. It is an oxoacid of selenium, and its structure is more accurately described as O2Se(OH)2. It is a colorless compound. Although it has few uses, one of its salts, sodium selenate is used in the production of glass and animal feeds.


      Structure and bonding


      The molecule is tetrahedral, as predicted by VSEPR theory. The Se–O bond length is 161 pm. In the solid state, it crystallizes in an orthorhombic structure.


      Preparation


      It is prepared by oxidising selenium compounds in lower oxidation states. One method involves the oxidation of selenium dioxide with hydrogen peroxide:

      SeO2 + H2O2 → H2SeO4
      Unlike the production sulfuric acid by hydration of sulfur trioxide, the hydration of selenium trioxide is an impractical method. Instead, selenic acid may also be prepared by the oxidation of selenous acid (H2SeO3) with halogens, such as chlorine or bromine, or with potassium permanganate. Using chlorine or bromine as the oxidising agents also produces hydrochloric or hydrobromic acid as a side-product, which needs to be removed from the solution since they can reduce the selenic acid to selenous acid.
      To obtain the anhydrous acid as a crystalline solid, the resulting solution is evaporated at temperatures below 140 °C (413 K; 284 °F) in a vacuum.


      Reactions


      Like sulfuric acid, selenic acid is a strong acid that is hygroscopic and extremely soluble in water. Concentrated solutions are viscous. Crystalline mono- and di-hydrates are known. The monohydrate melts at 26 °C, and the dihydrate melts at −51.7 °C.
      Selenic acid is a stronger oxidizer than sulfuric acid, capable of liberating chlorine from chloride ions, being reduced to selenous acid in the process:

      H2SeO4 + 2 H+ + 2 Cl− → H2SeO3 + H2O + Cl2
      It decomposes above 200 °C, liberating oxygen gas and being reduced to selenous acid:

      2 H2SeO4 → 2 H2SeO3 + O2
      Selenic acid reacts with barium salts to precipitate solid BaSeO4, analogous to the sulfate. In general, selenate salts resemble sulfate salts, but are more soluble. Many selenate salts have the same crystal structure as the corresponding sulfate salts.
      Treatment with fluorosulfuric acid gives selenoyl fluoride:

      H2SeO4 + 2 HSO3F → SeO2F2 + 2 H2SO4
      Hot, concentrated selenic acid reacts with gold, forming a reddish-yellow solution of gold(III) selenate:

      2 Au + 6 H2SeO4 → Au2(SeO4)3 + 3 H2SeO3 + 3 H2O


      Applications


      Selenic acid is used as a specialized oxidizing agent.


      References

    Kata Kunci Pencarian: