The high-pressure behavior of a natural jadarite (ideally LiNaSiB3O7(OH), a∼6.76 Å, b∼13.80Å, c∼7.69 Å, β=124.09◦, space group P21/c) has been studied by in situ single-crystal and powder synchrotron X-ray diffraction up to 20 GPa, with a diamond anvil cell and using He as a hydrostatic pressure-transmitting fluid. Between 16.57(5) and 17.04(5) GPa, jadarite undergoes a first-order isosymmetric phase transition, which is reconstructive in character, with a ΔV of approximately -3%. The structure of the high-pressure polymorph was solved and refined (to R1 ∼ 4%). The isothermal bulk modulus of the low-P polymorph of jadarite is KV0 = 55.0(5) GPa (βV0 = 0.0182(2) GPa–1), and its P-derivative is 3.84(9). The compressional anisotropy, derived along the three main crystallographic directions, is modest, with βa0:βb0:βc0 = 1.23:1:1.23. The P-induced deformation mechanisms at the atomic scale, which lead to phase transition, are described.
High‐pressure behaviour and phase transition of jadarite, a promising B and Li mineral commodity / D. Comboni, T. Battiston, M.S. Rumsey, F. Pagliaro, P. Lotti, M. Hanfland, G.D. Gatta. - In: JOURNAL OF THE AMERICAN CERAMIC SOCIETY. - ISSN 0002-7820. - 105:11(2022 Nov), pp. 7011-7021. [10.1111/jace.18659]
High‐pressure behaviour and phase transition of jadarite, a promising B and Li mineral commodity
D. Comboni
Primo
Writing – Original Draft Preparation
;T. Battiston;F. Pagliaro;P. LottiWriting – Review & Editing
;G.D. GattaUltimo
Writing – Review & Editing
2022
Abstract
The high-pressure behavior of a natural jadarite (ideally LiNaSiB3O7(OH), a∼6.76 Å, b∼13.80Å, c∼7.69 Å, β=124.09◦, space group P21/c) has been studied by in situ single-crystal and powder synchrotron X-ray diffraction up to 20 GPa, with a diamond anvil cell and using He as a hydrostatic pressure-transmitting fluid. Between 16.57(5) and 17.04(5) GPa, jadarite undergoes a first-order isosymmetric phase transition, which is reconstructive in character, with a ΔV of approximately -3%. The structure of the high-pressure polymorph was solved and refined (to R1 ∼ 4%). The isothermal bulk modulus of the low-P polymorph of jadarite is KV0 = 55.0(5) GPa (βV0 = 0.0182(2) GPa–1), and its P-derivative is 3.84(9). The compressional anisotropy, derived along the three main crystallographic directions, is modest, with βa0:βb0:βc0 = 1.23:1:1.23. The P-induced deformation mechanisms at the atomic scale, which lead to phase transition, are described.
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Jadarite_15-06-2022_R1.pdf
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