addenda and errata\(\def\hfill{\hskip 5em}\def\hfil{\hskip 3em}\def\eqno#1{\hfil {#1}}\)

STRUCTURAL SCIENCE CRYSTAL ENGINEERING MATERIALS

ISSN: 2052-5206

Volume 72| Part 6| December 2016| Page 927

https://doi.org/10.1107/S2052520616016607

Unique thermodynamic relationships for Δ_fH^o and Δ_fG^o for crystalline inorganic salts. I. Predicting the possible existence and synthesis of Na₂SO₂ and Na₂SeO₂. Addendum

Ángel Vegas,^a Joel F. Liebman^b and H. Donald Brooke Jenkins^c*

^aUniversidad de Burgos, Parque Científico y Tecnológico, Edificio I+D+I, Plaza Misael Bañuelos, Burgos 09001, Spain, ^bDepartment of Chemistry and Biochemistry, University of Maryland, Baltimore County, Maryland 21250, USA, and ^cDepartment of Chemistry, University of Warwick, Gibbet Hill Road, Coventry CV4 7AL, England
^*Correspondence e-mail: h.d.b.jenkins@warwick.ac.uk

Edited by E. V. Boldyreva, Russian Academy of Sciences, Russia (Received 17 October 2016; accepted 17 October 2016; online 1 December 2016)

Addendum to Vegas et al. [(2012), Acta Cryst. B68, 511–527].

Keywords: volume-based thermodynamics (VBT); oxidation–pressure concept; condensed phases; structural science.

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Our article (Vegas et al., 2012) reported, inter alia, the likely stability of the SO₂^2- moiety in the solid state in its compounds. Our conclusions were that K₂SO₂ and Cs₂SO₂ emerged as the two most likely alkali metal sulfoxylates to be stable and that Na₂SeO₂ was the more suitable sulfoxylate to be targeted for synthesis. Since our article appeared we have received an email from Sergei V. Makarov (University of Ivanovo, Russia) drawing our attention to his earlier work (Svarovsky et al., 2000; Makarov et al., 2012a,b) which we had not been aware of. His work reports that he has observed the SO₂^2- anion, in aqueous solution.