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Zolotarev, Andrey; Krivovichev, Sergey; Panikorovskii, Taras; Gurzhiy, Vladislav; Bocharov, Vladimir; Rassomakhin, Mikhail (2019) Dmisteinbergite, CaAl2Si2O8, a Metastable Polymorph of Anorthite: Crystal-Structure and Raman Spectroscopic Study of the Holotype Specimen. Minerals, 9 (10). 570 doi:10.3390/min9100570

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Reference Type	Journal (article/letter/editorial)
Title	Dmisteinbergite, CaAl2Si2O8, a Metastable Polymorph of Anorthite: Crystal-Structure and Raman Spectroscopic Study of the Holotype Specimen
Journal	Minerals
Authors	Zolotarev, Andrey		Author
	Krivovichev, Sergey		Author
	Panikorovskii, Taras		Author
	Gurzhiy, Vladislav		Author
	Bocharov, Vladimir		Author
	Rassomakhin, Mikhail		Author
Year	2019 (September 20)	Volume	9
Page(s)	570	Issue	10
Publisher	MDPI AG
URL	http://dx.doi.org/10.3390/min9100570
Download URL	https://www.mdpi.com/2075-163X/9/10/570/pdf?version=1571641923
DOI	doi:10.3390/min9100570Search in ResearchGate
	Generate Citation Formats
Classification	Not set	LoC	Not set
Mindat Ref. ID	7735506	Long-form Identifier	mindat:1:5:7735506:7
GUID	0
Full Reference	Zolotarev, Andrey; Krivovichev, Sergey; Panikorovskii, Taras; Gurzhiy, Vladislav; Bocharov, Vladimir; Rassomakhin, Mikhail (2019) Dmisteinbergite, CaAl2Si2O8, a Metastable Polymorph of Anorthite: Crystal-Structure and Raman Spectroscopic Study of the Holotype Specimen. Minerals, 9 (10). 570 doi:10.3390/min9100570
Plain Text	Zolotarev, Andrey; Krivovichev, Sergey; Panikorovskii, Taras; Gurzhiy, Vladislav; Bocharov, Vladimir; Rassomakhin, Mikhail (2019) Dmisteinbergite, CaAl2Si2O8, a Metastable Polymorph of Anorthite: Crystal-Structure and Raman Spectroscopic Study of the Holotype Specimen. Minerals, 9 (10). 570 doi:10.3390/min9100570
In	(2019, September) Minerals Vol. 9 (10) MDPI AG
Abstract/Notes	The crystal structure of dmisteinbergite has been determined using crystals from the type locality in Kopeisk city, Chelyabinsk area, Southern Urals, Russia. The mineral is trigonal, with the following structure: P312, a = 5.1123(2), c = 14.7420(7) Å, V = 333.67(3) Å3, R1 = 0.045, for 762 unique observed reflections. The most intense bands of the Raman spectra at 327s, 439s, 892s, and 912s cm −1 correspond to different types of tetrahedral stretching vibrations: Si–O, Al–O, O–Si–O, and O–Al–O. The weak bands at 487w, 503w, and 801w cm−1 can be attributed to the valence and deformation modes of Si–O and Al–O bond vibrations in tetrahedra. The weak bands in the range of 70–200 cm−1 can be attributed to Ca–O bond vibrations or lattice modes. The crystal structure of dmisteinbergite is based upon double layers of six-membered rings of corner-sharing AlO4 and SiO4 tetrahedra. The obtained model shows an ordering of Al and Si over four distinct crystallographic sites with tetrahedral coordination, which is evident from the average <T–O> bond lengths (T = Al, Si), equal to 1.666, 1.713, 1.611, and 1.748 Å for T1, T2, T3, and T4, respectively. One of the oxygen sites (O4) is split, suggesting the existence of two possible conformations of the [Al2Si2O8]2− layers, with different systems of ditrigonal distortions in the adjacent single layers. The observed disorder has a direct influence upon the geometry of the interlayer space and the coordination of the Ca2 site. Whereas the coordination of the Ca1 site is not influenced by the disorder and is trigonal antiprismatic (distorted octahedral), the coordination environment of the Ca2 site includes disordered O atoms and is either trigonal prismatic or trigonal antiprismatic. The observed structural features suggest the possible existence of different varieties of dmisteinbergite that may differ in: (i) degree of disorder of the Al/Si tetrahedral sites, with completely disordered structure having the P63/mcm symmetry; (ii) degree of disorder of the O sites, which may have a direct influence on the coordination features of the Ca2+ cations; (iii) polytypic variations (different stacking sequences and layer shifts). The formation of dmisteinbergite is usually associated with metastable crystallization in both natural and synthetic systems, indicating the kinetic nature of this phase. Information-based complexity calculations indicate that the crystal structures of metastable CaAl2Si2O8 polymorphs dmisteinbergite and svyatoslavite are structurally and topologically simpler than that of their stable counterpart, anorthite, which is in good agreement with Goldsmith’s simplexity principle and similar previous observations.

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Dmisteinbergite

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