TY - JOUR
T1 - Hydrates of calcium citrate and their interconversion in relation to calcium bioaccessibility
AU - Liu, Xiao-Chen
AU - Kirkensgaard, Jacob J. K.
AU - Skibsted, Leif H.
PY - 2021
Y1 - 2021
N2 - Calcium citrate tetrahydrate (CCT) and hexahydrate (CCH) precipitates from aqueous solutions of CaCl2 and sodium citrate above and below the transition temperature of 52 °C, respectively. The CCT, the dihydrate (CCD) and anhydrate (CCA) as obtained by a stepwise dehydration of solid CCH have enthalpy of dehydration of ΔH0CCH to CCT = 43.6, ΔH0CCT to CCD = 43.8, and ΔH0CCD to CCA = 88.1 kJ∙mol−1 as measured by DSC. WAXS measurements demonstrate a stepwise decrease in unit cell size upon dehydration, and a stronger binding of the two first water compared to additional. The increasing negative enthalpy of dissolution, as calculated from the temperature dependence of solubility (10–90 °C), +21 kJ∙mol−1 (CCH), –20 kJ∙mol−1 (CCT), –22 kJ∙mol−1 (CCD), and –40 kJ∙mol−1 (CCA) shows along the series of hydrates with increasing solubility, enthalpy–entropy compensation with an isoequilibrium temperature of 49 °C. Conversion of CCD and CCA in aqueous solutions yields the more soluble CCT, not the stable CCH in agreement with Ostwald's stage law, increasing calcium bioaccessibility under physiological conditions in intestines.
AB - Calcium citrate tetrahydrate (CCT) and hexahydrate (CCH) precipitates from aqueous solutions of CaCl2 and sodium citrate above and below the transition temperature of 52 °C, respectively. The CCT, the dihydrate (CCD) and anhydrate (CCA) as obtained by a stepwise dehydration of solid CCH have enthalpy of dehydration of ΔH0CCH to CCT = 43.6, ΔH0CCT to CCD = 43.8, and ΔH0CCD to CCA = 88.1 kJ∙mol−1 as measured by DSC. WAXS measurements demonstrate a stepwise decrease in unit cell size upon dehydration, and a stronger binding of the two first water compared to additional. The increasing negative enthalpy of dissolution, as calculated from the temperature dependence of solubility (10–90 °C), +21 kJ∙mol−1 (CCH), –20 kJ∙mol−1 (CCT), –22 kJ∙mol−1 (CCD), and –40 kJ∙mol−1 (CCA) shows along the series of hydrates with increasing solubility, enthalpy–entropy compensation with an isoequilibrium temperature of 49 °C. Conversion of CCD and CCA in aqueous solutions yields the more soluble CCT, not the stable CCH in agreement with Ostwald's stage law, increasing calcium bioaccessibility under physiological conditions in intestines.
KW - Calcium citrate
KW - Dehydration
KW - Dissolution
KW - DSC
KW - DVS
KW - Entropy-enthalpy compensation
KW - Ostwald's stage law
KW - WAXS
U2 - 10.1016/j.foodres.2020.109867
DO - 10.1016/j.foodres.2020.109867
M3 - Journal article
C2 - 33648185
AN - SCOPUS:85095981045
VL - 140
JO - Food Research International
JF - Food Research International
SN - 0963-9969
M1 - 109867
ER -