The crystal structure of stichtite, re-examination of barbertonite and the nature of polytypism in MgCr hydrotalcites

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DOIResolve DOI: http://doi.org/10.2138/am.2011.3531
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TypeArticle
Journal titleAmerican Mineralogist
Volume96
Pages179187; # of pages: 9
Subjectstichtite; barbertonite; polytype; hydrotalcite; carbon sequestration; stichtite Hill; kaapsehoop asbestos mine; X-ray diffraction
AbstractStichtite, ideally Mg6Cr2CO3(OH)16∙4H2O, from Stichtite Hill, Tasmania, Australia, and barbertonite, also ideally Mg6Cr2CO3(OH)16∙4H2O, from the Kaapsehoop asbestos mine, South Africa, have been studied by powder X-ray diffraction and their structures have been refined using the Rietveld method. Stichtite from Stichtite Hill crystallizes in the rhombohedral space group R3m, with unitcell parameters a = 3.09575(3) and c = 23.5069(6) Å, V = 195.099(6) Å3, with Z = 3/8. Barbertonite from the Kaapsehoop asbestos mine crystallizes in the hexagonal space group P63/mmc. The co-type specimens of barbertonite were found to be intergrown mixtures consisting of barbertonite and stichtite. Unit-cell parameters of barbertonite from the co-type specimens were a = 3.09689(6), c = 15.6193(8) Å, and V = 129.731(8) Å3 and a = 3.09646(6), c = 15.627(1) Å V = 129.76(1) Å3, and Z = ¼. Rietveld refinements of both stichtite and barbertonite show that they are polytypes rather than polymorphs and do not represent distinct mineral species. Several possible nomenclature systems are discussed for the naming of hydrotalcite minerals and groups. Raman band assignments are also presented for stichtite from Stichtite Hill. Stichtite and hydrotalcite minerals make up a large proportion of the ore at the Mount Keith nickel mine in Western Australia. Bulk powder diffraction shows the ore contains 6.1 wt% stichtite and 5.6 wt% iowaite. Hydrotalcite group minerals provide an important potential reservoir of CO2. At Mount Keith, the amount of CO2 mined as stichtite could exceed 45 000 metric tons per year, while exchange of Cl for CO3 could fix in excess of 40 000 metric tons CO2 per year if end-member iowaite is reacted to form pyaroaurite.
Publication date
LanguageEnglish
AffiliationNRC Institute for Chemical Process and Environmental Technology; National Research Council Canada
Peer reviewedYes
NRC number52240
NPARC number16600951
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Record identifier0efef0c0-56a3-4494-8ed1-07a7c83ac280
Record created2011-01-19
Record modified2016-05-09
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