Kinetics of water exchange in the hydration shell of Ni2+ ion at a mercury-solution interface

The OIIZ~I~~IO~ of the warcr n~ol~cuics in the hqdrarron shell> of hlga and Cl-hxw been ulcubred from a molecular d) namws simukxion oi 3 I I molal MgC12 solution wnh Ihc ccnusl iorce model for wzrtcr. The results arc compxed wrth miormarion obramcd irom neutron ddirJctlon srudrcs \%rth isotopic sub

Ahtract-Coadsorption of perchlorate ions and 3-methyl-isoquinoline molecules at the mercury-aqueous solution interface results in the formation of a condensed film. The process of ClO; incorporation (or removal) is very slow. Characteristic relaxation times (about 10-l s) are several orders of magni

In order to describe the adsorption of the Cl-ion at a mercury electrode in methanol and in ethanol more accurately, some additional properties of the inner layer were determined using Parsons' a-function data (collected in part I), the c&. values, and the thickness ratio parameters. The solvent eff

The distance ratio of the inner and outer Helmholtz planes, estimated previously from the capacitance ratio method, has been additionally determined as h-values,\* from the reduced isotherm (virial and Langmuir types) with the Frumkin-isotherm results of individual q,$and q&data. Similarly, the so-c