2020
DOI: 10.3390/min10040306
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Structure and Behavior of the Ni End-Member Schreibersite Ni3P under Compression to 50 GPa

Abstract: To better understand the potential presence of light element alloys of Fe and Ni in the Earth’s interior, the crystal structure and compressional behavior of the Ni-P binary compound, schreibersite (Ni3P), have been investigated using synchrotron X-ray diffraction experiments. Both powder and two single-crystal samples of synthetic Ni3P (in different orientations with respect to the loading axis of the diamond anvil cell) were compressed up to approximately 50 GPa at ambient temperature. The compressional data… Show more

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Cited by 2 publications
(3 citation statements)
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“…On the basis of the elemental analysis, these minerals all contain Ni and Fe transition metals, which implies that they formed under a reduced environment. The crystal structures and chemical compositions for schreibersite and kamacite mineral are relatively well-established compared with those the perryite mineral . Schreibersite adopts the Ni 3 P structure type, and it can be an either Ni-rich or Fe-rich compound (e.g., Ni 2 FeP or NiFe 2 P), whereas kamacite is an α-Fe/Ni alloy with an Fe-to-Ni ratio of roughly 9:1. , …”
Section: Introductionmentioning
confidence: 99%
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“…On the basis of the elemental analysis, these minerals all contain Ni and Fe transition metals, which implies that they formed under a reduced environment. The crystal structures and chemical compositions for schreibersite and kamacite mineral are relatively well-established compared with those the perryite mineral . Schreibersite adopts the Ni 3 P structure type, and it can be an either Ni-rich or Fe-rich compound (e.g., Ni 2 FeP or NiFe 2 P), whereas kamacite is an α-Fe/Ni alloy with an Fe-to-Ni ratio of roughly 9:1. , …”
Section: Introductionmentioning
confidence: 99%
“…The crystal structures and chemical compositions for schreibersite and kamacite mineral are relatively well-established compared with those the perryite mineral. 4 Schreibersite adopts the Ni 3 P structure type, and it can be an either Ni-rich or Fe-rich compound (e.g., Ni 2 FeP or NiFe 2 P), whereas kamacite is an α-Fe/Ni alloy with an Fe-to-Ni ratio of roughly 9:1. 5,6 The crystal structure of the synthetic perryite mineral was first investigated by Okada et al, and it adopts the noncentrosymmetric space group R3c; 7 However, because of the twinning problem of the analyzed crystal, the centrosymmetric space group R3̅ c may be a more suitable choice to describe this phase.…”
Section: ■ Introductionmentioning
confidence: 99%
“…The mineral may constitute for up to 14 % of metal matrix in iron and stony-iron meteorites (Buchwald 1975;Wasson and Choe 2009). Being a dominant phosphide phase in the metal-rich part of the Fe-Ni-P(S) system, schreibersite is a regular subject of studies devoted to evolution of planetary interiors (e.g., Clarke and Goldstein 1978;Scott et al 2007;Goldstein et al 2009;Gu et al 2014Gu et al , 2016He et al 2019; Khisina et al 2019;Chabot et al 2020;Chornkrathok et al 2020). The mineral is a typical constituent of enstatite chondrites and achondrites (Wasson and Wai 1970); it was encountered in carbonaceous chondrites (Zolensky et al 2002), acapulcoites, lodranites and winonaites (Li et al 2011; Keil and McCoy 2018) and in Lunar rocks (Smith and Steele 1976;Gleißner and Becker 2017).…”
Section: Introductionmentioning
confidence: 99%