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RAS Earth ScienceЗаписки Российского минералогического общества Zapiski of the Russian Mineralogical Society

  • ISSN (Print) 0869-6055
  • ISSN (Online) 2658-4352

Role of Sulfite Anion in Cancrinite-Group Minerals. Crystal Structure of the - containing Analogue of Afghanite

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PII
S2658435225060075-1
DOI
10.7868/S2658435225060075
Publication type
Article
Status
Published
Authors
N.V. Zubkova
  • Affiliation: Moscow State University
N.V. Chukanov
  • Affiliation: Federal Research Center of Problems of Chemical Physics and Medicinal Chemistry RAS
A.N. Sapozhnikov
  • Affiliation: Vinogradov Institute of Geochemistry, Siberian Branch of Russian Academy of Sciences
I.V. Pekov
  • Affiliation: Moscow State University
D.A. Ksenofontov
  • Affiliation: Moscow State University
D.Yu. Pushcharovsky
  • Affiliation: Moscow State University
Volume/ Edition
Volume 154 / Issue number 6
Pages
135-148
Abstract
The crystal structure of a sulfite-bearing analogue of afghanite [sp. gr. , = 12.7664(6), = 21.4544(9) Å, = 3028.2(3) Å, = 4; = 0.0773 for 3146 independent reflections with > 2σ with the crystal chemical formula ()()()()()) from the Malobystrinskoe lazurite deposit (Southwestern Baikal region, Siberia, Russia) has been studied. In the mineral groups completely fill one of the positions in the cage of the tetrahedral framework, first found in the structure of liottite and named the liottite cage. It has been shown that the presence of groups in namely and only the liottite cage is also characteristic of other multilayer minerals of the cancrinite group with this cage: alloriite and its sulfite analogue, steudelite, tounkite, and marinellite. The possible role of reducing conditions in the formation of - bearing cancrinite-group minerals and the formation of aluminosilicate frameworks containing a liottite cage is discussed.
Keywords
афганит группа канкринита лиоттитовая полость сульфит-ион кристаллическая структура Малобыстринское месторождение лазурита
Date of publication
16.10.2025
Year of publication
2025
Number of purchasers
0
Views
7

References

  1. 1. Ballirano P., Bonaccorsi E., Maras A., Merlino S. Crystal structure of afghanite, the eight-layer member of the cancrinite-group: evidence for long-range Si, Al ordering. Eur. J. Miner. 1997. Vol. 9. P. 21-30.
  2. 2. Ballirano P., Merlino S., Bonaccorsi E., Maras A. The crystal structure of liottite, a six-layer member of the cancrinite group. Canad. Miner. 1996. Vol. 34. P. 1021-1030.
  3. 3. Ballirano P., Bosi F. Thermal behavior of afghanite, an ABABACAC member of the cancrinite group. Amer. Miner. 2012. Vol. 97. P. 630-640.
  4. 4. Bonaccorsi E. The crystal structure of giuseppettite, the 16-layer member of the cancrinite-sodalite group. Micropor. Mesopor. Mat. 2004. Vol. 73. P. 129-136.
  5. 5. Chukanov N. V., Aksenov S. M., Rastsveteava R. K. Structural chemistry, IR spectroscopy, properties, and genesis of natural and synthetic microporous cancrinite- and sodalite-related materials: a review. Micropor. Mesopor. Mat. 2021. Vol. 323. Article N111098. DOI: 10.1016/j.micros.2021.111098
  6. 6. Chukanov N. V., Bolotina N. B., Shendrik R. Yu., Sapozhnikov A. N., Zubkova N. V., Pekov I. V., Vigasina M. F., Sandalov F. D., Ksenofontov D. A. Crystal chemistry and refined formula of tounkite. Minerals. 2024. Vol. 14. Paper 382. DOI: 10.3390/min14040382
  7. 7. Chukanov N. V., Rastsveteava R. K., Pekov I. V., Zadov A. E. Alloriite, Na5K1.5Ca(Si6Al6O24)(SO4)(OH)0.5H2O, a new mineral species of the cancrinite group. Zapiski RMO (Proc. Russian Miner. Soc.). 2007. Vol. 136. N 1. P. 82-89 (in Russian, English translation: Geol. Ore Deposits. 2007. Vol. 149. N 8. P. 752-757).
  8. 8. Chukanov N. V., Zubkova N. V., Pekov I. V., Giester G., Pushcharovsky D. Yu. Sulfite analogue of alloriite from Sacrofano, Latium, Italy: Crystal chemistry and specific features of genesis. Zapiski RMO 2021. Vol. 150. N 1. P. 48-62 (in Russian, English translation: Geol. Ore Deposits. 2021. Vol. 63. N 8. P. 793-804).
  9. 9. Chukanov N. V., Zubkova N. V., Varlamov D. A., Pekov I. V., Belakovskiy D. I., Britvin S. N., Van K. V., Ermolaeva V. N., Vozchikova S. A., Pushcharovsky D. Yu. Steudelite, (Na3◻)1(K,Na)17Ca7Ca4(Al24Si24O96)(SO3)6F6·4H2O, a new cancrinite-group mineral with afghanite-type framework topology. Phys. Chem. Miner. 2022a. Vol. 49(1). Paper 1.
  10. 10. Chukanov N. V., Shchipalkina N. V., Shendrik R. Yu., Vigasina M. F., Tauson V. L., Lipko S. V., Varlamov D. A., Shcherbakov V. D., Sapozhnikov A. N., Kasatkin A. V., Zubkova N. V., Pekov I. V. isomorphism and mutual transformations of S-bearing components in feldspathoids with microporous structures. Minerals. 2022b. Vol. 12. Paper 1456. DOI: 10.3390/min12111456
  11. 11. Chukanov N. V., Zubkova N. V., Shendrik R. Yu., Sapozhnikov A. N., Pekov I. V., Vigasina M. G., Chervonnaya N. A., Varlamov D. A., Bolotina N. B., Ksenofontov D. A., Pushcharovsky D. Yu. Crystal structure features, spectroscopic characteristics and thermal conversions of sulfur-bearing groups: New natural commensurately modulated hauyne analogue, Na6Ca2-x(Si6Al6O24)(SO42-, HS-, S2-, S4, S3-, S52-)2-y. Minerals. 2025. Vol. 15. Paper 709. DOI: 10.3390/min15070709
  12. 12. Frost R. L., Keeffe E. C. Raman spectroscopic study of the sulfite-bearing minerals scotlandite, hannebachite and orsachlite: implications for the desulfation of soils. J. Raman Spectr. 2009. Vol. 40. P. 244-248. DOI: 10.1002/jrs.2089
  13. 13. Oxford Diffraction CrysAlisPro Software System, v. 1.171.42.49, Rigaku Corporation, Oxford, UK, 2022.
  14. 14. Pobedimskaya E. A., Rastsveteava R. K., Terentieva L. E., Sapozhnikov A. N. Crystal structure of afghanite. Doklady USSR Acad. Sci. 1991. Vol. 320. N 4. P. 882-886 (in Russian).
  15. 15. Pushcharovsky D. Yu. Mineralogical Crystallography: X. Carbonates. Cryst. Rep. 2023. Vol. 68. Suppl. 1. P. S229-S238.
  16. 16. Rastsveteava R. K., Pobedimskaya E. A., Terent'eva L. E., Sapozhnikov A. N. Structural features of afghanite and its place among the cancrinite minerals. Cryst. Rep. 1993. Vol. 38. P. 185-189.
  17. 17. Rastsveteava R. K., Ivanova A. G., Chukanov N. V., Verin I. A. Crystal structure of allorilite. Doklady Earth Sci. 2007. Vol. 415. N 5. P. 815-819.
  18. 18. Rozenberg K. A., Sapozhnikov A. N., Rastsveteava R. K., Bolotina N. B., Kashaev A. A. Crystal structure of a new representative of the cancrinite group with a 12-layer stacking sequence of tetrahedral rings. Cryst. Rep. 2004. Vol. 49. P. 635-642.
  19. 19. Sheldrick G. M. Crystal structure refinement with SHELXL. Acta Cryst. 2015. V. C71. P. 3-8.
  20. 20. Zubkova N. V., Chukanov N. V., Varlamov D. A., Vigasina M. F., Pekov I. V., Ksenofontov D. A., Pushcharovsky D. Yu. A sulfite-bearing analog of marinellite. Zapiski RMO (Proc. Russian Miner. Soc.). 2022. Vol. 151. T 6. P. 84-100 (in Russian, English translation: Geol. Ore Deposits. 2023. Vol. 65. N 7. P. 782-793).
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