E. Zhitova, R. M. Sheveleva, A. Zolotarev, S. Krivovichev, V. Shilovskikh, A. Nuzhdaev, M. Nazarova
{"title":"镁盐三闪石(Fe,Mg)Al2(SO4)4·22H2O)的晶体结构:氢键、几何参数和结构复杂性","authors":"E. Zhitova, R. M. Sheveleva, A. Zolotarev, S. Krivovichev, V. Shilovskikh, A. Nuzhdaev, M. Nazarova","doi":"10.3190/jgeosci.372","DOIUrl":null,"url":null,"abstract":"The crystal structure of magnesian halotrichite has been refined for two samples collected as white efflorescences from the surface of geothermal fields associated with the Koshelevsky (sample VK4-09 ) and Centralny Semyachik (sample SC2-20 ) volcanoes (both Kamchatka peninsula, Russia). Halotrichite and its Mg-rich varieties are common products of the acid leaching of rocks, both volcanic and technogenic. The crystal structures of two halotrichite crystals were refined in the P 2 1 / n space group ( vs. P 2 1 / c used previously) with the unit-cell parameters a = 6.1947(2)/ 6.1963(5) Å, b = 24.2966(8)/ 24.2821(14) Å, c = 21.0593(8)/ 21.063(2) Å, β = 96.512(4)/ 96.563(9) º, V = 3149.2(2)/ 3148.3(5) Å 3 , Z = 4 to R 1 = 0.055 and 0.067 for 5673 and 3936 reflections with I > 2σ I reflections, respectively. The crystal structure consists of isolated Al(H 2 O) 6 octahedra, SO 4 tetrahedra, H 2 O molecules and [ X (SO 4 )(H 2 O) 5 ] 0 clusters ( X = Fe, Mg). The chemical analyses of both samples show their enrichment of Mg at the Fe 2+ site. The analysis of geometrical parameters of the crystal structures of halotrichite and its Mg-analogue pickeringite suggests that the localization of O atoms carried out in this work is more accurate and the single-crystal X-ray diffraction data for the first time allowed localization of hydrogen atom positions. The refined number of H 2 O molecules agrees with the ideal chemical formula. The crystal structure complexity of halotrichite is estimated as I G,total = 2305 bits/cell, which belongs to the family of very complex mineral structures. The contribution of hydrogen bonding system plays a significant role in the overall bonding scheme and the overall complexity of the crystal structure, increasing the Shannon information amount more than twice from I G,total(noH) = 988 bits/cell (no hydrogen atoms) to I G,total = 2305 bits/cell (all atoms including hydrogen). The comparative distribution of halotrichite relative to other Fe-Al hydrated sulfates from the standpoint of structural complexity is considered.","PeriodicalId":15957,"journal":{"name":"Journal of Geosciences","volume":" ","pages":""},"PeriodicalIF":1.1000,"publicationDate":"2023-08-13","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"5","resultStr":"{\"title\":\"The crystal structure of magnesian halotrichite, (Fe,Mg)Al2(SO4)4·22H2O: hydrogen bonding, geometrical parameters and structural complexity\",\"authors\":\"E. Zhitova, R. M. Sheveleva, A. Zolotarev, S. Krivovichev, V. Shilovskikh, A. Nuzhdaev, M. Nazarova\",\"doi\":\"10.3190/jgeosci.372\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The crystal structure of magnesian halotrichite has been refined for two samples collected as white efflorescences from the surface of geothermal fields associated with the Koshelevsky (sample VK4-09 ) and Centralny Semyachik (sample SC2-20 ) volcanoes (both Kamchatka peninsula, Russia). Halotrichite and its Mg-rich varieties are common products of the acid leaching of rocks, both volcanic and technogenic. The crystal structures of two halotrichite crystals were refined in the P 2 1 / n space group ( vs. P 2 1 / c used previously) with the unit-cell parameters a = 6.1947(2)/ 6.1963(5) Å, b = 24.2966(8)/ 24.2821(14) Å, c = 21.0593(8)/ 21.063(2) Å, β = 96.512(4)/ 96.563(9) º, V = 3149.2(2)/ 3148.3(5) Å 3 , Z = 4 to R 1 = 0.055 and 0.067 for 5673 and 3936 reflections with I > 2σ I reflections, respectively. The crystal structure consists of isolated Al(H 2 O) 6 octahedra, SO 4 tetrahedra, H 2 O molecules and [ X (SO 4 )(H 2 O) 5 ] 0 clusters ( X = Fe, Mg). The chemical analyses of both samples show their enrichment of Mg at the Fe 2+ site. The analysis of geometrical parameters of the crystal structures of halotrichite and its Mg-analogue pickeringite suggests that the localization of O atoms carried out in this work is more accurate and the single-crystal X-ray diffraction data for the first time allowed localization of hydrogen atom positions. The refined number of H 2 O molecules agrees with the ideal chemical formula. The crystal structure complexity of halotrichite is estimated as I G,total = 2305 bits/cell, which belongs to the family of very complex mineral structures. The contribution of hydrogen bonding system plays a significant role in the overall bonding scheme and the overall complexity of the crystal structure, increasing the Shannon information amount more than twice from I G,total(noH) = 988 bits/cell (no hydrogen atoms) to I G,total = 2305 bits/cell (all atoms including hydrogen). 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The crystal structure of magnesian halotrichite, (Fe,Mg)Al2(SO4)4·22H2O: hydrogen bonding, geometrical parameters and structural complexity
The crystal structure of magnesian halotrichite has been refined for two samples collected as white efflorescences from the surface of geothermal fields associated with the Koshelevsky (sample VK4-09 ) and Centralny Semyachik (sample SC2-20 ) volcanoes (both Kamchatka peninsula, Russia). Halotrichite and its Mg-rich varieties are common products of the acid leaching of rocks, both volcanic and technogenic. The crystal structures of two halotrichite crystals were refined in the P 2 1 / n space group ( vs. P 2 1 / c used previously) with the unit-cell parameters a = 6.1947(2)/ 6.1963(5) Å, b = 24.2966(8)/ 24.2821(14) Å, c = 21.0593(8)/ 21.063(2) Å, β = 96.512(4)/ 96.563(9) º, V = 3149.2(2)/ 3148.3(5) Å 3 , Z = 4 to R 1 = 0.055 and 0.067 for 5673 and 3936 reflections with I > 2σ I reflections, respectively. The crystal structure consists of isolated Al(H 2 O) 6 octahedra, SO 4 tetrahedra, H 2 O molecules and [ X (SO 4 )(H 2 O) 5 ] 0 clusters ( X = Fe, Mg). The chemical analyses of both samples show their enrichment of Mg at the Fe 2+ site. The analysis of geometrical parameters of the crystal structures of halotrichite and its Mg-analogue pickeringite suggests that the localization of O atoms carried out in this work is more accurate and the single-crystal X-ray diffraction data for the first time allowed localization of hydrogen atom positions. The refined number of H 2 O molecules agrees with the ideal chemical formula. The crystal structure complexity of halotrichite is estimated as I G,total = 2305 bits/cell, which belongs to the family of very complex mineral structures. The contribution of hydrogen bonding system plays a significant role in the overall bonding scheme and the overall complexity of the crystal structure, increasing the Shannon information amount more than twice from I G,total(noH) = 988 bits/cell (no hydrogen atoms) to I G,total = 2305 bits/cell (all atoms including hydrogen). The comparative distribution of halotrichite relative to other Fe-Al hydrated sulfates from the standpoint of structural complexity is considered.
期刊介绍:
The Journal of Geosciences is an international peer-reviewed journal published by the Czech Geological Society with support from the Czech Geological Survey. It accepts high-quality original research or review papers dealing with all aspects of the nature and origin of igneous and metamorphic rocks. The Journal focuses, mainly but not exclusively, on:
-Process-oriented regional studies of igneous and metamorphic complexes-
Research in structural geology and tectonics-
Igneous and metamorphic petrology-
Mineral chemistry and mineralogy-
Major- and trace-element geochemistry, isotope geochemistry-
Dating igneous activity and metamorphic events-
Experimental petrology and mineralogy-
Theoretical models of igneous and metamorphic processes-
Mineralizing processes and mineral deposits.
All the papers are written in English, even though they may be accompanied by an additional Czech abstract. Each contribution is a subject to peer review by at least two independent reviewers, typically at least one from abroad. The Journal appears 2 to 4 times a year. Formally it is divided in annual volumes, each of them including 4 issues.
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