Publication Date:
2011-06-01
Description:
Sibirskite, parasibirskite and priceite, synthesized in aqueous solutions at temperatures from 80 to 240{degrees}C, have been investigated by single-crystal X-ray refinements of the structure. Sibirskite and parasibirskite are dimorphs of CaHBO3. Sibirskite at 295 K crystallizes in space group P121/c1 (no. 14), with a 3.5624(7), b 9.5225(19), c 8.6231(17) A, {beta} 119.452(3){degrees}, V 254.72(9) A3, and Z = 4. Parasibirskite at 295 K crystallizes in space group P121/m1 (no. 11), with a 6.6994(13), b 5.4269(11), c 3.5534(7) A, {beta} 93.048(11){degrees}, V 129.01(5) A3, and Z = 2. Priceite, (Ca2(H2O)[B5O7(OH)5]), at 173 K crystallizes in space group of P121/ c1 (no. 14), with a 11.580(3), b 6.9844(19), c 12.352(3) A, {beta} 110.573(9){degrees}, V 935.3(4) A3, and Z = 4. Our refinements allow determination of the positions of boron and hydrogen atoms in these minerals, which was not possible in previous powder XRD studies. In particular, the isolated [BO2(OH)] groups in sibirskite and parasibirskite are characterized by a long B-OH bond and two short B-O bonds, different from the [BO3] and [B(OH3)] groups in nesoborates. Periodic density functional theory (DFT) calculations for sibirskite and parasibirskite support those results of structure refinements and suggest that parasibirskite undergoes a displacive phase-transition involving hydrogen ordering below 173 K. Sibirskite and parasibirskite left in their parental solutions at ambient conditions decompose to form calcite.
Print ISSN:
0008-4476
Topics:
Geosciences
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