Cant structural distinction involving the two activation states, consistent together with the entropic element in the two species (S N = -18.1 J/K/mol and S D = 29.7 J/K/mol). A possible explanation is that (MgCO3 aCO3 ) might have a much more ordered structure because of the inability of Mg2 and Ba2 to type a single mixed layer, in order that the oxygens within the CO3 MNITMT web groups can bind to Mg in the c path and Ba within the -c direction with out distorting the bond lengths on either side. Around the contrary, (CaCO3 gCO3 ) could be extra disordered for the reason that Ca and Mg can replace one another in any binding geometry, resulting in oxygen etal bonds in any orientation in the CO3 groups possessing each Ca and Mg attached. Consequently, the bonds can’t adopt the optimal length and angle because of the size distinction of Ca and Mg ions (bond length Mg two.082 Ca two.382 in dolomite). Following all, activated complexes differ from but resemble the goods one particular way or the other. It is actually consequently affordable to speculate that the ordered structure of norsethite and the prevalent occurrence of disordered (Ca,Mg)CO3 phases might be a reflection on the corresponding activated complicated a single way or the other.Minerals 2021, 11,12 ofTable 2. Thermodynamic properties in the activated complexes for unique carbonate minerals [24,40,62,63,66]. Mineral calcite norsethite dolomite T(K) 298 298 298 H= (kJmol-1 ) 44.two 77.5 132.0 S= (JK-1 mol-1 ) G= (kJmol-1 ) 81.three 82.9 125.-120.three -18.1 29.Finally, the estimated 88 reduction in [Mg2 ] due to hydration leads to a reaction quotient eight occasions smaller sized than the equilibrium formation constant (K N ) for the activated complex (Equation (2)), equivalent to a five kJ/mol energy deficiency to attain the required G N . The magnitude of fluctuation inside the reported G N ( 794 kJ/mol, Table three) in solutions with different