Electrochemistry and Electrocatalysis with Hemoglobin in DHP-PDDA Surfactant-Polymer Multibilayer Composite Films

Polyionic complex DHP-PDDA was prepared by reacting anionic surfactant dihexadecyl phosphate (DHP) with polycationic poly(diallyldimethyl ammonium) (PDDA). Thin films made from DHP-PDDA with incorporated hemoglobin (Hb) on pyrolytic graphite (PG) electrodes were characterized by electrochemistry and other techniques.

Enhanced Electron Transfer for Hemoglobin in 2C_(12)N^+PVS-Composite Films Modified on Pyrolytic Graphite Electrodes

Stable thin films made from polyionic complex 2C12N+PVS- with incorporated Hb on PG electrodes were characterized by electrochemistry. The electron transfer between Hb and PG electrodes was greatly facilitated in microenvironment of 2C12N+PVS- films. The Hb-2C12N+PVS-films could be used to catalytically reduce trichloroacetic acid.

血红蛋白在双十二烷基二甲基铵-聚乙烯硫酸盐多双层复合薄膜电极上的电化学与电催化

将Hb涂布到由双十二烷基二甲基铵 聚乙烯硫酸盐 (2C12 N+ PVS-)在热解石墨 (PG)电极表面形成的薄膜上 ,即可形成稳定的Hb 2C12 N+ PVS-薄膜。在pH 5 .5的缓冲溶液中 ,该薄膜电极在 - 0 .18V(vs.SCE)左右有一对相当可逆的循环伏安还原氧化峰 ,为Hb血红素辅基Fe /Fe 电对的特征峰 ,在 - 1.0 8V左右HbFe 被进一步还原成HbFe 。在 2C12 N+ PVS-薄膜的微环境中 ,Hb与PG电极之间的电子传递得到极大促进 ,并显示了较好的稳定性。应用所建立的薄层电化学模型和E0′分散模型 ,对pH 7.0缓冲溶液中Hb 2C12 N+PVS-薄膜电极的方波伏安图进行非线性回归拟合处理 ,获得该体系平均式量电位E0′和表观异相电子传递速率常数ks。Hb 2C12 N+ PVS-薄膜可以催化还原氧和某些有机卤化污染物 ,如 :三氯乙酸 (TCA)

肌红蛋白在双十二烷基二甲基溴化铵-粘土多双层复合薄膜电极上的电化学与电催化

将双十二烷基二甲基溴化铵 ( DDAB) -粘土 ( Clay)复合物的水分散系与肌红蛋白 ( Mb)水溶液的混合物涂布到热解石墨 ( PG)电极表面 ,可制得 Mb-DDAB-Clay薄膜电极 .在 p H5.5的缓冲溶液中 ,该薄膜电极在-0 .2 5V( vs.SCE)处有一对可逆的循环伏安还原氧化峰 ,为 Mb血红素辅基 Fe( ) /Fe( )电对的特征峰 .在 DDAB-Clay薄膜的微环境中 ,Mb与 PG电极之间的电子传递得到极大促进 ,并显示了很好的稳定性 .Soret吸收带的位置表明 ,在适中的 p H范围内 ,Mb在薄膜中保持了其原始构象 .X射线衍射实验结果表明 ,Mb的嵌入并未对薄膜的有序多层结构有很大影响 .在 DDAB-Clay薄膜环境中 ,Mb血红素 Fe( ) /Fe( )电对的式量电位在 p H4 .5～ 1 1 .0范围内与溶液 p H值成线性关系 ,表明 Mb的电化学还原很可能是一个质子伴随一个电子的电极过程 .