Tin(II) oxide ( stannous oxide ) is a compound with the formula SnO. It is composed of tin and oxygen where tin has the oxidation state of +2. There are two forms, a stable blue-black form and a metastable red form.
6-435: Blue-black SnO can be produced by heating the tin(II) oxide hydrate, SnO·xH 2 O (x<1) precipitated when a tin(II) salt is reacted with an alkali hydroxide such as NaOH. Metastable, red SnO can be prepared by gentle heating of the precipitate produced by the action of aqueous ammonia on a tin(II) salt. SnO may be prepared as a pure substance in the laboratory, by controlled heating of tin(II) oxalate ( stannous oxalate ) in
12-509: A salt of tin and oxalic acid with the chemical formula SnC 2 O 4 . The compound looks like colorless crystals, does not dissolve in water, and forms crystalline hydrates. Effect of oxalic acid solution on tin(II) oxide : Tin(II) oxalate can also be obtained by using tin(II) chloride and oxalic acid. Tin (II) oxalate forms colorless crystals. Insoluble in water and acetone . Soluble in dilute HCl , methanol , and petroleum ether . Forms crystal hydrates of
18-424: Is as a precursor in manufacturing of other, typically divalent, tin compounds or salts. Stannous oxide may also be employed as a reducing agent and in the creation of ruby glass . It has a minor use as an esterification catalyst. Cerium(III) oxide in ceramic form, together with Tin(II) oxide (SnO) is used for illumination with UV light. Stannous oxalate Tin(II) oxalate is an inorganic compound ,
24-679: Is found in nature as the rare mineral romarchite . The asymmetry is usually simply ascribed to a sterically active lone pair; however, electron density calculations show that the asymmetry is caused by an antibonding interaction of the Sn(5s) and the O(2p) orbitals. The electronic structure and chemistry of the lone pair determines most of the properties of the material. Non-stoichiometry has been observed in SnO. The electronic band gap has been measured between 2.5 eV and 3eV. The dominant use of stannous oxide
30-556: The absence of air or under a CO 2 atmosphere. This method is also applied to the production of ferrous oxide and manganous oxide . Tin(II) oxide burns in air with a dim green flame to form SnO 2 . When heated in an inert atmosphere initially disproportionation occurs giving Sn metal and Sn 3 O 4 which further reacts to give SnO 2 and Sn metal. SnO is amphoteric , dissolving in strong acid to give tin(II) salts and in strong base to give stannites containing Sn(OH) 3 . It can be dissolved in strong acid solutions to give
36-459: The ionic complexes Sn(OH 2 ) 3 and Sn(OH)(OH 2 ) 2 , and in less acid solutions to give Sn 3 (OH) 4 . Note that anhydrous stannites, e.g. K 2 Sn 2 O 3 , K 2 SnO 2 are also known. SnO is a reducing agent and is thought to reduce copper(I) to metallic clusters in the manufacture of so-called "copper ruby glass". Black, α-SnO adopts the tetragonal PbO layer structure containing four coordinate square pyramidal tin atoms. This form
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