TY - JOUR
T1 - On water structure in concentrated salt solutions
AU - Marcus, Yizhak
PY - 2009/5
Y1 - 2009/5
N2 - In concentrated salt solutions the average distances between the ions, d av=1.1844(νi c i )-1/3 nm, are commensurate with the sizes of the solvated ions, so that no 'bulk solvent' remains. This is illustrated with two saturated aqueous solutions, where 16.67 mol-dm-3 CsF at 75∈°C has d av(Cs-F)=0.368 nm and 14.54 mol-dm-3 LiI at 80∈°C has d av(Li-I)=0.385 nm. The minimal distance required for the bare ions (sum of their radii) are 0.303 nm for CsF and 0.289 nm for LiI. Hence no water molecule, diameter 0.276 nm, can be fitted between the ions to form linear or slightly bent hydrogen bonds. Some recent work ignoring such constraints, even in 3-6 mol-dm -3 solutions, is criticized on this account.
AB - In concentrated salt solutions the average distances between the ions, d av=1.1844(νi c i )-1/3 nm, are commensurate with the sizes of the solvated ions, so that no 'bulk solvent' remains. This is illustrated with two saturated aqueous solutions, where 16.67 mol-dm-3 CsF at 75∈°C has d av(Cs-F)=0.368 nm and 14.54 mol-dm-3 LiI at 80∈°C has d av(Li-I)=0.385 nm. The minimal distance required for the bare ions (sum of their radii) are 0.303 nm for CsF and 0.289 nm for LiI. Hence no water molecule, diameter 0.276 nm, can be fitted between the ions to form linear or slightly bent hydrogen bonds. Some recent work ignoring such constraints, even in 3-6 mol-dm -3 solutions, is criticized on this account.
KW - Concentrated aqueous salts
KW - Distance between ions
KW - Molten salt hydrates
UR - http://www.scopus.com/inward/record.url?scp=62949093975&partnerID=8YFLogxK
U2 - 10.1007/s10953-009-9398-z
DO - 10.1007/s10953-009-9398-z
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AN - SCOPUS:62949093975
SN - 0095-9782
VL - 38
SP - 513
EP - 516
JO - Journal of Solution Chemistry
JF - Journal of Solution Chemistry
IS - 5
ER -