Transport properties of new copolyether–ester and copolyether–urethane dialysis membranes

New dialysis membranes, prepared from linear block copolymers, have shown unique separation properties which appear to be based on definite solut,e-membrane interaction. The synthesis and characterization of block copolyetherurethanes based on poly(oxyethy1ene glycol) is described.

## Abstract The dialysis and flow properties of a selected copolymer system, consisting of polyethylene terephthalate and polyoxyethylene glycol, have been studied in some detail. Such transport information should serve as a guideline to future development of improved, synthetic, hemodialysis membr

## Abstract Within the red blood cell the hemoglobin molecule is subjected to modulation mechanisms, namely homo‐ and heterotropic interactions, which optimize its functional behavior to the specific physiological requirements. At the cellular level, these modulation mechanisms are utilized to perf

In this contribution, the synthesis and characterization of novel ion-exchange blend membranes which contain the SO 3 Ag group for the application in the perstractive separation of alkene-alkane mixtures, where the Ag ϩ ion serves as facilitated transport site for the alkene via formation of a pi co