Abstract
The present contribution provides new structural and spectroscopic data on the formation of solid solutions between hydrated and dehydrated sulfate salts of sodium-nickel and sodium-manganese in a whole concentration range: Na2Ni1−xMnx(SO4)2·yH2O, 0≤ x≤1.0. Using powder XRD, electron paramagnetic resonance spectroscopy (EPR), IR and Raman spectroscopy it has been found that double sodium-nickel and sodium-manganese salts form solid solutions Na2Ni1−xMnx(SO4)2·4H2O with a blödite-type of structure within a broad concentration range of 0≤x≤0.49, while the manganese rich compositions Na2Ni1−xMnx(SO4)2·2H2O (0.97≤x≤1.0) crystallize in the kröhnkite-type of structure. The Ni-based blödites Na2Ni1−xMnx(SO4)2·4H2O dehydrate between 140 and 260°C into anhydrous salts Na2Ni1−xMnx(SO4)2, 0≤ x≤0.44, with a structure where Ni1−xMnxO6 octahedra are bridged into pairs by edge- and corner sharing SO42− groups. Both TEM and EPR methods show that the Ni2+ and Mn2+ ions are homogenously distributed over three crystallographic positions of the large monoclinic cell. The dehydration of the kröhnkite phase Na2Ni1−xMnx(SO4)2·2H2O yields the alluaudite phase Na2+δMn2-δ/2(SO4)3, where the Na-to-Mn ratio decreases and all Ni2+ dopants are released from the structure. The process of the dehydration is discussed in terms of structural aspects taking into account the distortion degree of the Ni,MnO6 and SO4 polyhedra.
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