The carrier-mediated transport of copper ions through bulk liquid membranes has been examined and the transport capability of novel lipophilic polyamines investigated. The effects of hydrophilic/lipophilic balance, the nature of the membrane and buffer, the pH of the receiving phase, the carrier, and the metal salt concentration on the transport efficiency were examined and optimal conditions for transport established. High transport efficiency - 98% of Cu-H in the receiving phase after 48 h - was provided by Carrier 2b (1x10(-3)' M in CH2Cl2) with propionate, buffer (pH = 4,60) as source phase, containing 5x10(-3) M CUH, and 0.1 M HCl as stripping phase. Single-metal ion transport experiments showed potential transport selectivity for cupric ions over other ions such as Zn-H, Ni-H, and Co-H.
Structurally simple lipophilic polyamines as carriers of cupric ions in bulk liquid membranes
DI PROFIO, Pietro;
2002-01-01
Abstract
The carrier-mediated transport of copper ions through bulk liquid membranes has been examined and the transport capability of novel lipophilic polyamines investigated. The effects of hydrophilic/lipophilic balance, the nature of the membrane and buffer, the pH of the receiving phase, the carrier, and the metal salt concentration on the transport efficiency were examined and optimal conditions for transport established. High transport efficiency - 98% of Cu-H in the receiving phase after 48 h - was provided by Carrier 2b (1x10(-3)' M in CH2Cl2) with propionate, buffer (pH = 4,60) as source phase, containing 5x10(-3) M CUH, and 0.1 M HCl as stripping phase. Single-metal ion transport experiments showed potential transport selectivity for cupric ions over other ions such as Zn-H, Ni-H, and Co-H.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
