Kazuyoshi Miyoshi

Dependence of Lanthanide-Ion Binding Performance on HDEHP Concentration in HDEHP Impregnation to Porous Sheet

An octadecylamino-group-introduced polymer chain grafted onto a porous sheet was impregnated with bis(2-ethylhexyl)hydrogen phosphate (HDEHP). A mixture of HDEHP and ethanol of various HDEHP concentrations was used for the impregnation. The porous sheet into which a C18H37NH group was introduced was immersed in HDEHP/ethanol solution before ethanol evaporation. The liquid permeability of a cartridge charged with the HDEHP-impregnated porous sheet in disk form prepared in 50 (v/v)% HDEHP/ethanol solution was 96% that of the starting-porous-disk-packed cartridge. The equilibrium binding capacity of the HDEHP-impregnated porous disk for yttrium ions was 0.32 mol per kg of the disk. In addition, the HDEHP-impregnated-porous-disc-packed cartridge was found to be applicable to the preconcentration of trace amounts of lanthanides in a multielement solution prior to their measurement by inductively coupled plasma mass spectrometry.

Crosslinked-Chelating Porous Sheet with High Dynamic Binding Capacity of Metal Ions

A crosslinked chelating porous sheet was prepared by cografting ethylene glycol dimethacrylate (EGDMA) with glycidyl methacrylate onto an electron-beam-irradiated porous polyethylene sheet, followed by the introduction of an iminodiacetate group. At a molar percentage of EGDMA of 1.0 mol%, the sheet exhibited a maximum dynamic binding capacity for copper ions of 0.93 mmol/g, while the equilibrium binding capacity remained the same (1.2 mmol/g) as that of a non-crosslinked chelating porous sheet. The crosslinking of the grafted chain causes copper ions to lower their diffusion rate along the sheet thickness driven by the gradient of the amount of copper ions adsorbed.

Simple Method for High-Density Impregnation of Aliquat 336 onto Porous Sheet and Binding Performance of Resulting Sheet for Palladium Ions

Aliquat 336 was impregnated onto the polymer chain grafted onto a 2.0-mm-thick porous sheet with a porosity of 75% and a pore size of 1.2 µm via the graft polymerization of glycidyl methacrylate and the subsequent reaction of the epoxy group with mercaptoundecanoic acid. In a 2:1 ethanol/4M NaOH (v/v) mixture, Aliquat 336 was impregnated at a density of 0.85 mmol/g, which was comparable to that of conventional Aliquat-336-impregnated polymeric beads. The dynamic binding capacity for palladium was 0.60 mmol/g when 100 mg-Pd/L palladium chloride solution was forced to permeate at a space velocity of 3700 h−1.