The electrochemical behaviour of haemoglobin (Hb) at the liquid/liquid interface was investigated. Based on ion transfer cyclic voltammetry and bulk ionolysis experiments, it is proposed that Hb adsorbs at the liquid/liquid interface and forms a multi-layer deposit thereafter repetitive cycling. However Hb does not cross the interface. The transfer peak current measured increased non-linearly with the bulk concentration of Hb in the aqueous phase but it did vary linearly with the square root of the scan rate. This diffusion-controlled process is ascribed to the Hb-facilitated transfer of the anion of the organic phase electrolyte. The electrochemical signal also increases with time suggesting a conformational re-arrangement of Hb at the liquid/liquid interface. The transfer peak potential was seen to vary with the nature of the anion. in agreement with the trend in hydrophobicity of the anions examined. Furthermore, at pH values >= pI of Hb, no transfer peak was observed, suggesting that neutral or negatively charged HI) does not facilitate the transfer process. (C) 2008 Elsevier Ltd. All rights reserved.