Thermodynamic properties of microporous materials for two borophosphates, K[ZnBP2O8] and NH4[ZnBP2O8]

•K[ZnBP2O8] and NH4[ZnBP2O8] have been synthesized and characterized.•The enthalpies of solution of title two borophosphates were measured.•Enthalpies of solution of KCl/NH4Cl(s) in (HCl + H3BO3)(aq) were measured.•Enthalpy of solution of Zn(PO3)2(s) in (HCl + H3BO3 + KCl/NH4Cl)(aq) were measured.•ΔfHm∘ for title two borophosphates were obtained by the thermochemical cycles.

Two pure borophosphates microporous materials, K[ZnBP2O8] and NH4[ZnBP2O8], have been synthesized and characterized by XRD, FT-IR, DTA-TG techniques and chemical analysis. The molar enthalpies of solution of K[ZnBP2O8](s) and NH4[ZnBP2O8](s) in 3 mol · dm−3 HCl(aq), of KCl/NH4Cl(s) in (HCl + H3BO3)(aq), and of Zn(PO3)2(s) in (HCl + H3BO3 + KCl/NH4Cl)(aq) were measured by microcalorimeter at T = 298.15 K, respectively. With the incorporation of the previously determined enthalpy of solution of H3BO3(s) in 3 mol · dm−3 HCl(aq), together with the use of the standard molar enthalpies of formation for Zn(PO3)2(s), KCl(s), NH4Cl(s), H3BO3(s) and H2O(l), the standard molar enthalpies of formation of −(3184.0 ± 1.2) kJ · mol−1 for K[ZnBP2O8] and −(3067.6 ± 1.2) kJ · mol−1 for NH4[ZnBP2O8] at T = 298.15 K was obtained on the basis of the appropriate thermochemical cycles.