High-pressure single-crystal synchrotron X-ray diffraction study of lillianite

Institut for Geovidenskab og Naturforvaltning

High-pressure single-crystal synchrotron X-ray diffraction study of lillianite

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Standard

High-pressure single-crystal synchrotron X-ray diffraction study of lillianite. / Zucchini, Azzurra; Balic-Zunic, Tonci; Collings, Ines E.; Hanfland, Michael; Comodi, Paola.

I: American Mineralogist, Bind 107, Nr. 9, 2022, s. 1752-1759.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt

Harvard

Zucchini, A, Balic-Zunic, T, Collings, IE, Hanfland, M & Comodi, P 2022, 'High-pressure single-crystal synchrotron X-ray diffraction study of lillianite', American Mineralogist, bind 107, nr. 9, s. 1752-1759. https://doi.org/10.2138/am-2021-7765

APA

Zucchini, A., Balic-Zunic, T., Collings, I. E., Hanfland, M., & Comodi, P. (2022). High-pressure single-crystal synchrotron X-ray diffraction study of lillianite. American Mineralogist, 107(9), 1752-1759. https://doi.org/10.2138/am-2021-7765

Vancouver

Zucchini A, Balic-Zunic T, Collings IE, Hanfland M, Comodi P. High-pressure single-crystal synchrotron X-ray diffraction study of lillianite. American Mineralogist. 2022;107(9):1752-1759. https://doi.org/10.2138/am-2021-7765

Author

Zucchini, Azzurra ; Balic-Zunic, Tonci ; Collings, Ines E. ; Hanfland, Michael ; Comodi, Paola. / High-pressure single-crystal synchrotron X-ray diffraction study of lillianite. I: American Mineralogist. 2022 ; Bind 107, Nr. 9. s. 1752-1759.

Bibtex

@article{a26e41135f104ace864ee6c1e734173b,

title = "High-pressure single-crystal synchrotron X-ray diffraction study of lillianite",

abstract = "In this paper, high-pressure data from a synchrotron X-ray diffraction study on a lillianite (Pb3Bi2S6) single crystal up to similar to 21 GPa are presented. A phase transition from lillianite (space group Bbmm, LP lillianite) to the high-pressure form beta-Pb3Bi2S6 (space group Pbnm, HP lillianite) was confirmed and bracketed between 4.90 and 4.92 GPa. The transition is reversible but of first-order with a hysteresis of similar to 2.8 GPa. It showed weak effects of pseudo-merohedral twinning that disappeared upon decompression, testifying to a full recovery of the single crystal of lillianite This makes lillianite an interesting shape-memory material.With a bulk modulus K-4.9 = 78(3) GPa and K' = 5.1(4), beta-Pb3Bi2S6 is markedly less compressible than lillianite [K-0 = 44(2) GPa, K' = 7(1)]. Compressional anisotropy increases markedly in beta-Pb3Bi2S6 with compressibility along the b axis [M-0b = 130(6) GPa and M-b' = 19(3) in lillianite, M-4.9b = 145(4) GPa and M-b' = 16.0(7) in beta-Pb3Bi2S6] significantly larger than that along the other two axes [M-0a = 118(5) GPa, M-a' = 21(3), M-0c = 139(12) GPa, and M-c' = 31(10) in lillianite, M-4.9a = 242(12) GPa, M-a' = 8(1), M-4.9c = 242(5) GPa, and M-c' = 29(1) in beta-Pb3Bi2S6].The behavior of lillianite at high pressure is an interesting case study in relation to non-quenchable ultrahigh-pressure phases likely occurring in the inner Earth, like post-perovskite MgSiO3, the oxide homologue N = 1 of the lillianite series. The beta-Pb3Bi2S6 structure, on the other hand, is the N = 3 homologue of the meneghinite series to which the higher-pressure modification of the post-perovskite structure also belongs (homologue N = 1). This makes the two forms of Pb3Bi2S6 potential equivalents of high- and ultrahigh-pressure Mg silicates that could occur both in the deep earth and in other rocky extrasolar planetary bodies.",

keywords = "Lillianite, high-pressure, synchrotron, single-crystal X-ray diffraction, phase transition, shape-memory, POST-PEROVSKITE PHASE, ELASTIC PROPERTIES, TRANSITION, GALENOBISMUTITE, COMPRESSION, DISTORTION, PB3BI2S6, PBBI2S4, SERIES",

author = "Azzurra Zucchini and Tonci Balic-Zunic and Collings, {Ines E.} and Michael Hanfland and Paola Comodi",

year = "2022",

doi = "10.2138/am-2021-7765",

language = "English",

volume = "107",

pages = "1752--1759",

journal = "American Mineralogist",

issn = "0003-004X",

publisher = "Mineralogical Society of America",

number = "9",

}

RIS

TY - JOUR

T1 - High-pressure single-crystal synchrotron X-ray diffraction study of lillianite

AU - Zucchini, Azzurra

AU - Balic-Zunic, Tonci

AU - Collings, Ines E.

AU - Hanfland, Michael

AU - Comodi, Paola

PY - 2022

Y1 - 2022

N2 - In this paper, high-pressure data from a synchrotron X-ray diffraction study on a lillianite (Pb3Bi2S6) single crystal up to similar to 21 GPa are presented. A phase transition from lillianite (space group Bbmm, LP lillianite) to the high-pressure form beta-Pb3Bi2S6 (space group Pbnm, HP lillianite) was confirmed and bracketed between 4.90 and 4.92 GPa. The transition is reversible but of first-order with a hysteresis of similar to 2.8 GPa. It showed weak effects of pseudo-merohedral twinning that disappeared upon decompression, testifying to a full recovery of the single crystal of lillianite This makes lillianite an interesting shape-memory material.With a bulk modulus K-4.9 = 78(3) GPa and K' = 5.1(4), beta-Pb3Bi2S6 is markedly less compressible than lillianite [K-0 = 44(2) GPa, K' = 7(1)]. Compressional anisotropy increases markedly in beta-Pb3Bi2S6 with compressibility along the b axis [M-0b = 130(6) GPa and M-b' = 19(3) in lillianite, M-4.9b = 145(4) GPa and M-b' = 16.0(7) in beta-Pb3Bi2S6] significantly larger than that along the other two axes [M-0a = 118(5) GPa, M-a' = 21(3), M-0c = 139(12) GPa, and M-c' = 31(10) in lillianite, M-4.9a = 242(12) GPa, M-a' = 8(1), M-4.9c = 242(5) GPa, and M-c' = 29(1) in beta-Pb3Bi2S6].The behavior of lillianite at high pressure is an interesting case study in relation to non-quenchable ultrahigh-pressure phases likely occurring in the inner Earth, like post-perovskite MgSiO3, the oxide homologue N = 1 of the lillianite series. The beta-Pb3Bi2S6 structure, on the other hand, is the N = 3 homologue of the meneghinite series to which the higher-pressure modification of the post-perovskite structure also belongs (homologue N = 1). This makes the two forms of Pb3Bi2S6 potential equivalents of high- and ultrahigh-pressure Mg silicates that could occur both in the deep earth and in other rocky extrasolar planetary bodies.

AB - In this paper, high-pressure data from a synchrotron X-ray diffraction study on a lillianite (Pb3Bi2S6) single crystal up to similar to 21 GPa are presented. A phase transition from lillianite (space group Bbmm, LP lillianite) to the high-pressure form beta-Pb3Bi2S6 (space group Pbnm, HP lillianite) was confirmed and bracketed between 4.90 and 4.92 GPa. The transition is reversible but of first-order with a hysteresis of similar to 2.8 GPa. It showed weak effects of pseudo-merohedral twinning that disappeared upon decompression, testifying to a full recovery of the single crystal of lillianite This makes lillianite an interesting shape-memory material.With a bulk modulus K-4.9 = 78(3) GPa and K' = 5.1(4), beta-Pb3Bi2S6 is markedly less compressible than lillianite [K-0 = 44(2) GPa, K' = 7(1)]. Compressional anisotropy increases markedly in beta-Pb3Bi2S6 with compressibility along the b axis [M-0b = 130(6) GPa and M-b' = 19(3) in lillianite, M-4.9b = 145(4) GPa and M-b' = 16.0(7) in beta-Pb3Bi2S6] significantly larger than that along the other two axes [M-0a = 118(5) GPa, M-a' = 21(3), M-0c = 139(12) GPa, and M-c' = 31(10) in lillianite, M-4.9a = 242(12) GPa, M-a' = 8(1), M-4.9c = 242(5) GPa, and M-c' = 29(1) in beta-Pb3Bi2S6].The behavior of lillianite at high pressure is an interesting case study in relation to non-quenchable ultrahigh-pressure phases likely occurring in the inner Earth, like post-perovskite MgSiO3, the oxide homologue N = 1 of the lillianite series. The beta-Pb3Bi2S6 structure, on the other hand, is the N = 3 homologue of the meneghinite series to which the higher-pressure modification of the post-perovskite structure also belongs (homologue N = 1). This makes the two forms of Pb3Bi2S6 potential equivalents of high- and ultrahigh-pressure Mg silicates that could occur both in the deep earth and in other rocky extrasolar planetary bodies.

KW - Lillianite

KW - high-pressure

KW - synchrotron

KW - single-crystal X-ray diffraction

KW - phase transition

KW - shape-memory

KW - POST-PEROVSKITE PHASE

KW - ELASTIC PROPERTIES

KW - TRANSITION

KW - GALENOBISMUTITE

KW - COMPRESSION

KW - DISTORTION

KW - PB3BI2S6

KW - PBBI2S4

KW - SERIES

U2 - 10.2138/am-2021-7765

DO - 10.2138/am-2021-7765

M3 - Journal article

VL - 107

SP - 1752

EP - 1759

JO - American Mineralogist

JF - American Mineralogist

SN - 0003-004X

IS - 9

ER -

ID: 320877778