An apparatus is described for the compression of samples to ∼2 GPa at temperatures from 80 to 300 K, rapid chilling to 80 K whilst under load and subsequent recovery into liquid nitro-gen after the load is released. In this way, a variety of quenchable high-pressure phases of many materials may be preserved for examination outside the high-pressure sample environment, with the principal benefit being the ability to obtain high-resolution powder diffraction data for phase identification and structure solution. The use of this apparatus, in combination with a newly developed cold-loadable low-temperature stage for X-ray powder diffraction (the PheniX-FL), is illustrated using ice VI (a high-pressure polymorph of ordinary water ice that is thermodynamically stable only above ∼0.6 GPa) as an example. A second example using synthetic epsomite (MgSO·7HO) reveals that, at ∼1.6 GPa and 293 K, it undergoes incongruent melting to form MgSO·5HO plus brine, contributing to a long-standing debate on the nature of the high-pressure behaviour of this and similar highly hydrated materials. The crystal structure of this new high-pressure polymorph of MgSO·5HO has been determined at 85 K in space group 2 from the X-ray powder diffraction pattern of a sample recovered into liquid nitro-gen and is found to differ from that of the known ambient-pressure phase of MgSO·5HO (pentahydrite, space group ), consisting of corner-sharing MgO-SO ion pairs rather than infinite corner-sharing chains.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5988006PMC
http://dx.doi.org/10.1107/S1600576718003977DOI Listing

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