First solvation shell structure and dynamics of solvated Ca2+ in dilute aqueous ammonia by first principle approach: a QMCF MD simulation study

“…Compared to hard metal ions, the preferential factor in the first solvation shell for Ag + , Cu 2+ , and Co 2+ has been observed to be 3. that the referential factor for K + and Ca 2+ is close to 2, while for Mg 2+ is 0.88 [25,26,55]. The solvation shell of the Rb + ion contains no ammonia [9,27].…”

“…Soft metal ions have a lower preferential factor than hard metal ions, indicating that soft metal ions prefer solvated by water over ammonia and vice versa. It is supported by the fact that the referential factor for K + and Ca 2+ is close to 2, while for Mg 2+ is 0.88 [25, 26, 55]. The solvation shell of the Rb + ion contains no ammonia [9, 27].…”

A hybrid forces Quantum Mechanical Charge Field Molecular Dynamics of Cs⁺ ion in aqueous ammonia: A solvation lability, “structure breaking” phenomenon and hydrogen bond properties

“…Compared to hard metal ions, the preferential factor in the first solvation shell for Ag + , Cu 2+ , and Co 2+ has been observed to be 3. that the referential factor for K + and Ca 2+ is close to 2, while for Mg 2+ is 0.88 [25,26,55]. The solvation shell of the Rb + ion contains no ammonia [9,27].…”

“…Soft metal ions have a lower preferential factor than hard metal ions, indicating that soft metal ions prefer solvated by water over ammonia and vice versa. It is supported by the fact that the referential factor for K + and Ca 2+ is close to 2, while for Mg 2+ is 0.88 [25, 26, 55]. The solvation shell of the Rb + ion contains no ammonia [9, 27].…”

A hybrid forces Quantum Mechanical Charge Field Molecular Dynamics of Cs⁺ ion in aqueous ammonia: A solvation lability, “structure breaking” phenomenon and hydrogen bond properties