• journal_title：American Mineralogist
• Contributor：Bruno Lanson ; Victor A. Drits ; Qi Feng ; Alain Manceau
• Publisher：Mineralogical Society of America
• Date：2002-
• Format：text/html
• Language：en
• journal_abbrev：American Mineralogist
• issn：0003-004X
• volume：87
• issue：11-12
• firstpage：1662
• section：Reynolds' Commemorative Papers

The structure of a synthetic analogue of Na-birnessite (NaBi) was studied by powder X-ray diffraction (XRD). It is shown that NaBi has a one-layer triclinic structure with sub-cell parameters: a_P = 2.9513(4) Å, b_P = 2.9547(4) Å, c_P = 7.334(1) Å, α_P = 78.72(2) Å, β_P = 101.79(1) Å, γ_P = 122.33(1) Å, and space group P1̅ . This sub-cell is equivalent to the base-centered sub-cell with parameters: a = 5.174 Å, b = 2.848 Å, c = 7.334 Å, α = 90.53 Å, β = 103.20 Å, and γ = 90.07 Å. A structure model has been refined using the Rietveld technique. NaBi consists of vacancy-free Mn-bearing octahedral layers whose negative charge arises mostly from the substitution of Mn³⁺ for Mn⁴⁺. The departure from the hexagonal symmetry of layers results from Jahn-Teller distortion of Mn³⁺ octahedra, which are elongated along the a axis, segregated in Mn³⁺-rich rows parallel to the b axis, and separated from each other along the a axis by two Mn⁴⁺-rows. Structural sites of interlayer Na cations and H₂O have been determined as well as their occupancies. The sub-cells of the two NaBi modifications described by Drits et al. (1997) as types I and II likely contain four sites for interlayer species, two of which are occupied by Na and the other two by H₂O molecules. In the two NaBi varieties, these pairs of sites are split along the c axis and related by a center of symmetry. This splitting is consistent with the modulated structure of both NaBi types, which arises from the periodic displacement of interlayer species along the b axis with a periodicity λ = 6b (Drits et al. 1997).