Research output: Contribution to journal › Article › peer-review
Kayupovaite, Na2Mn10[(Si14Al2)O38(OH)8] ⋅ 7H2O – a new stilpnomelane-related mineral from the Ushkatyn-III deposit, Kazakhstan. / Верещагин, Олег Сергеевич; Бритвин, Сергей Николаевич; Брусницын, Алексей Ильич; Шагова, Анастасия Кирилловна; Перова, Елена Николаевна; Пеков, Игорь Викторович; Шиловских, Владимир Владимирович; Власенко, Наталия Сергеевна; Авдонцева, Евгения Юрьевна; Платонова, Наталия Владимировна; Бочаров, Владимир Николаевич.
In: European Journal of Mineralogy, Vol. 37, No. 6, 03.11.2025, p. 829–840.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Kayupovaite, Na2Mn10[(Si14Al2)O38(OH)8] ⋅ 7H2O – a new stilpnomelane-related mineral from the Ushkatyn-III deposit, Kazakhstan
AU - Верещагин, Олег Сергеевич
AU - Бритвин, Сергей Николаевич
AU - Брусницын, Алексей Ильич
AU - Шагова, Анастасия Кирилловна
AU - Перова, Елена Николаевна
AU - Пеков, Игорь Викторович
AU - Шиловских, Владимир Владимирович
AU - Власенко, Наталия Сергеевна
AU - Авдонцева, Евгения Юрьевна
AU - Платонова, Наталия Владимировна
AU - Бочаров, Владимир Николаевич
PY - 2025/11/3
Y1 - 2025/11/3
N2 - Kayupovaite, ideally Na2Mn10[(Si14Al2)O38(OH)8]·7H2O, is a new mineral named in honor of Dr. Maria Mikhailovna Kayupova (1921-1980), the mineralogist of Satpaev Institute of Geological Sciences (Alma-Ata, USSR) who studied the Ushkatyn-III complex baryte-lead / iron-manganese deposit, Karagandy Province, Kazakhstan, the type locality of the described mineral. Kayupovaite forms coarse lamellar (typically bent and split) light grey with greasy luster crystals up to 0.2 × 0.15 × 0.01 mm combined into radial, scaly or lamellar aggregates up to 3 × 3 × 0.5 cm embedded in a calcite - rhodonite matrix. Optically, in transmitted light kayupovaite is colourless, with undulatory extinction due to crystal curvature, non-pleochroic, biaxial (–), α 1.551(4), β = γ 1.586(2), 2Vmeas = 3±1 °. Kayupovaite is monoclinic, space group C2/c, a = 24.9149(9), b = 16.4343(5), c = 22.3974(7) Å, β = 94.408(3) °, V = 9143.7(5) Å3, Z = 8. The strongest lines of powder X-ray diffraction pattern (d in Å (I) (hkl)): 12.34(100)(200), 3.45(8)(71-1), 3.09(8)(800), 2.85(100)(121), 2.5946(12)(714), 2.642(11)(354), 2.614(7)(40-8), 2.414(7)(554). The Raman spectrum of kayupovaite contains the following bands (cm-1): 3635, 3560 (O – H stretching vibrations of OH groups and H2O molecules); 1041, 768, 742, 717 (Si – O and Al – O stretching modes); 657, 532, 499, 460, 405, 374, 333 (Mn – O stretching and Si – O – Si modes); 304, 291, 224, 157, 100 (lattice modes). The absorption bands of the infrared spectrum are (cm-1): 3629, 3511, 3390 (O – H stretching vibrations of OH groups and H2O molecules); 1640 (H2O bending vibrations); 1020 (Si – O stretching vibrations); 778 (IVAl – O stretching vibrations); 724 (Mn – O – H bending mode); 651 (O – Si – O bending mode); 459 (Mn2+ – O stretching vibrations). The empirical formula of kayupovaite calculated on the basis of (O + OH) = 46 atoms per formula unit is (Na0.91K0.46Ca0.14)1.51(Mn2+9.29Mg0.89Zn0.02)10.20[(Si14.28Al1.61)15.89O38(OH)8]∙7.23H2O. The mineral belongs to the group of modulated manganese phyllosilicates and is structurally related to stilpnomelane. The absence of iron in the mineral is a result of oxidative Mn / Fe fractionation during the formation of braunite-rich Mn ores.
AB - Kayupovaite, ideally Na2Mn10[(Si14Al2)O38(OH)8]·7H2O, is a new mineral named in honor of Dr. Maria Mikhailovna Kayupova (1921-1980), the mineralogist of Satpaev Institute of Geological Sciences (Alma-Ata, USSR) who studied the Ushkatyn-III complex baryte-lead / iron-manganese deposit, Karagandy Province, Kazakhstan, the type locality of the described mineral. Kayupovaite forms coarse lamellar (typically bent and split) light grey with greasy luster crystals up to 0.2 × 0.15 × 0.01 mm combined into radial, scaly or lamellar aggregates up to 3 × 3 × 0.5 cm embedded in a calcite - rhodonite matrix. Optically, in transmitted light kayupovaite is colourless, with undulatory extinction due to crystal curvature, non-pleochroic, biaxial (–), α 1.551(4), β = γ 1.586(2), 2Vmeas = 3±1 °. Kayupovaite is monoclinic, space group C2/c, a = 24.9149(9), b = 16.4343(5), c = 22.3974(7) Å, β = 94.408(3) °, V = 9143.7(5) Å3, Z = 8. The strongest lines of powder X-ray diffraction pattern (d in Å (I) (hkl)): 12.34(100)(200), 3.45(8)(71-1), 3.09(8)(800), 2.85(100)(121), 2.5946(12)(714), 2.642(11)(354), 2.614(7)(40-8), 2.414(7)(554). The Raman spectrum of kayupovaite contains the following bands (cm-1): 3635, 3560 (O – H stretching vibrations of OH groups and H2O molecules); 1041, 768, 742, 717 (Si – O and Al – O stretching modes); 657, 532, 499, 460, 405, 374, 333 (Mn – O stretching and Si – O – Si modes); 304, 291, 224, 157, 100 (lattice modes). The absorption bands of the infrared spectrum are (cm-1): 3629, 3511, 3390 (O – H stretching vibrations of OH groups and H2O molecules); 1640 (H2O bending vibrations); 1020 (Si – O stretching vibrations); 778 (IVAl – O stretching vibrations); 724 (Mn – O – H bending mode); 651 (O – Si – O bending mode); 459 (Mn2+ – O stretching vibrations). The empirical formula of kayupovaite calculated on the basis of (O + OH) = 46 atoms per formula unit is (Na0.91K0.46Ca0.14)1.51(Mn2+9.29Mg0.89Zn0.02)10.20[(Si14.28Al1.61)15.89O38(OH)8]∙7.23H2O. The mineral belongs to the group of modulated manganese phyllosilicates and is structurally related to stilpnomelane. The absence of iron in the mineral is a result of oxidative Mn / Fe fractionation during the formation of braunite-rich Mn ores.
UR - https://www.mendeley.com/catalogue/1427ce19-02db-37f0-b51d-7ee9652f9f2e/
U2 - 10.5194/ejm-37-829-2025
DO - 10.5194/ejm-37-829-2025
M3 - Article
VL - 37
SP - 829
EP - 840
JO - European Journal of Mineralogy
JF - European Journal of Mineralogy
SN - 0935-1221
IS - 6
ER -
ID: 143289412