Selenium trioxide is the inorganic compound with the formula SeO<sub>3</sub>. It is white, hygroscopic solid. It is also an oxidizing agent and a Lewis acid. It is of academic interest as a precursor to Se(VI) compounds.
Selenium trioxide is difficult to prepare because it is unstable with respect to the dioxide:
It has been generated in a number of ways despite the fact that the dioxide does not combust under normal conditions. One method entails dehydration of anhydrous selenic acid with phosphorus pentoxide at 150âÂÂ160 ðC. Another method is the reaction of liquid sulfur trioxide with potassium selenate.
In its chemistry SeO<sub>3</sub> generally resembles sulfur trioxide, SO<sub>3</sub>, rather than tellurium trioxide, TeO<sub>3</sub>. The impure substance reacts explosively with oxidizable organic compounds.
At 120 ðC SeO<sub>3</sub> reacts with selenium dioxide to form the Se(VI)-Se(IV) compound diselenium pentaoxide:
It reacts with selenium tetrafluoride to form selenoyl fluoride, the selenium analogue of sulfuryl fluoride
As with SO<sub>3</sub> adducts are formed with Lewis bases such as pyridine, dioxane and ether.
With lithium oxide and sodium oxide it reacts to form salts of Se<sup>VI</sup>O<sub>5</sub><sup>4âÂÂ</sup> and Se<sup>VI</sup>O<sub>6</sub><sup>6âÂÂ</sup>: With Li<sub>2</sub>O, it gives Li<sub>4</sub>SeO<sub>5</sub>, containing the trigonal pyramidal anion Se<sup>VI</sup>O<sub>5</sub><sup>4âÂÂ</sup> with equatorial bonds, 170.6âÂÂ171.9 pm; and longer axial SeâÂÂO bonds of 179.5 pm. With Na<sub>2</sub>O it gives Na<sub>4</sub>SeO<sub>5</sub>, containing the square pyramidal Se<sup>VI</sup>O<sub>5</sub><sup>4âÂÂ</sup>, with SeâÂÂO bond lengths ranging from range 172.9 â 181.5 pm, and Na<sub>12</sub>(SeO<sub>4</sub>)<sub>3</sub>(SeO<sub>6</sub>), containing octahedral Se<sup>VI</sup>O<sub>6</sub><sup>6âÂÂ</sup>. Se<sup>VI</sup>O<sub>6</sub><sup>6âÂÂ</sup> is the conjugate base of the unknown orthoselenic acid (Se(OH)<sub>6</sub>).
In the solid phase SeO<sub>3</sub> consists of cyclic tetramers, with an 8 membered (SeâÂÂO)<sub>4</sub> ring. Selenium atoms are 4-coordinate, bond lengths being SeâÂÂO bridging are 175 pm and 181 pm, non-bridging 156 and 154 pm.
SeO<sub>3</sub> in the gas phase consists of tetramers and monomeric SeO<sub>3</sub> which is trigonal planar with an SeâÂÂO bond length of 168.78 pm.