Unraveling Hidden Mg-Mn-H Phase Relations at High Pressures and Temperatures by in Situ Synchrotron Diffraction

Spektor, Kristina; Crichton, Wilson A.; Konar, Sumit; Filippov, Stanislav; Klarbring, Johan; Simak, Sergei I.; Häussermann, Ulrich

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Unraveling Hidden Mg-Mn-H Phase Relations at High Pressures and Temperatures by in Situ Synchrotron Diffraction

Spektor, Kristina

ORCID-id: 0000-0002-3267-9797

Crichton, Wilson A.

Konar, Sumit

Filippov, Stanislav

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Antal upphovsmän: 72018 (Engelska)Ingår i: Inorganic Chemistry, ISSN 0020-1669, E-ISSN 1520-510X, Vol. 57, nr 3, s. 1614-1622Artikel i tidskrift (Refereegranskat) Published

Abstract [en]

The MgMnH system was investigated by in situ high pressure studies of reaction mixtures MgH2MnH2. The formation conditions of two complex hydrides with composition Mg3MnH7 were established. Previously known hexagonal Mg3MnH7 (h-Mg3MnH7) formed at pressures 1.52 GPa and temperatures between 480 and 500 degrees C, whereas an orthorhombic form (o-Mg3MnH7) was obtained at pressures above 5 GPa and temperatures above 600 degrees C. The crystal structures of the polymorphs feature octahedral [Mn(I)H-6](5) complexes and interstitial H-. Interstitial H- is located in trigonal bipyramidal and square pyramidal interstices formed by Mg2+ ions in h- and o-Mg3MnH7, respectively. The hexagonal form can be retained at ambient pressure, whereas the orthorhombic form upon decompression undergoes a distortion to monoclinic Mg3MnH7 (m-Mg3MnH7). The structure elucidation of o- and m-Mg3MnH7 was aided by first-principles density functional theory (DFT) calculations. Calculated enthalpy versus pressure relations predict m- and o-Mg3MnH7 to be more stable than h-Mg3MnH7 above 4.3 GPa. Phonon calculations revealed o-Mg3MnH7 to be dynamically unstable at pressures below 5 GPa, which explains its phase transition to m-Mg3MnH7 on decompression. The electronic structure of the quenchable polymorphs h- and m-Mg3MnH7 is very similar. The stable 18-electron complex [MnH6](5-) is mirrored in the occupied states, and calculated band gaps are around 1.5 eV. The study underlines the significance of in situ investigations for mapping reaction conditions and understanding phase relations for hydrogen-rich complex transition metal hydrides.

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2018. Vol. 57, nr 3, s. 1614-1622

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URN: urn:nbn:se:su:diva-154596DOI: 10.1021/acs.inorgchem.7b02968ISI: 000424730800075PubMedID: 29323885OAI: oai:DiVA.org:su-154596DiVA, id: diva2:1195389

Tillgänglig från: 2018-04-05 Skapad: 2018-04-05 Senast uppdaterad: 2022-02-26Bibliografiskt granskad

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Spektor, Kristina

Crichton, Wilson A.

Konar, Sumit

Filippov, Stanislav

Klarbring, Johan

Simak, Sergei I.

Häussermann, Ulrich