次亚磷酸根在镍电极上的电氧化机理与动力学

用电化学质谱(EMS)和动力学模型分析等方法研究了次亚磷酸根在镍电极上的电化学氧化机理和动力学.研究表明，次亚磷酸根的电化学氧化是通过从P－H键脱离一个原子H，形成磷中心自由基(PHO2－•)，而磷中心自由基(PHO2－•)进一步进行电化学反应形成最终产物亚磷酸。利用该模型，推导出相关动力学方程并通过与实验数据拟合获得动力学参数.结果表明，该模型能很好地模拟次亚磷酸根在镍电极上的电化学氧化过程.     

乙醇在Ni-Mo合金电极上氧化的动力学模型

利用循环伏安以及稳态极化曲线等方法研究了在１ｍｏｌ．Ｌ＾－１ＫＯＨ溶液中,乙醇在电沉积Ｎｉ－Ｍｏ合金电极上氧化的电化学特性,提出了一个数学模型来预计乙醇在电沉积Ｎｉ－Ｍｏ合金电极上的电化学行为,在碱性溶液中,Ｎｉ（ＯＨ）２／ＮｉＯＯＨ电对的氧化还原过程是乙醇氧化的前期步骤,Ｎｉ（ＯＨ）２／ＮｉＯＯＨ）电对相应的速度常数（即ｋ１和ｋ－１）是电极电位的函数,乙醇氧化是通过一个速度常数为ｋｃ１的化学反应来完成,推导出了各个动力学方程并将实验数据与方程进行比较而获得各个动力学参数,电化学速度常数ｋ１（Ｅ）＝１．４１＊１０＾７ｅｘｐ（０．５ＦＥ／ＲＴ）ｍｍｏｌ．ｃｍ＾－２．ｓ＾－１以及ｋ－１（Ｅ）＝０．７１１ｅｘｐ（０．５ＦＥ／ＲＴ）ｍｍｏｌ．ｃｍ＾－２．ｓ＾－１,Ｅ是相对饱和甘汞电极（ＳＣＥ）的电极电位,而化学反应的速     

Anodic and cathodic process of hypophosphite on a Ni-Ag electrode

The reduction and the oxidation of hypophosphite on a Ni-Ag electrode have been studied to provide the information about the phosphorus incorporation mechanisms during the electro-less deposition and the electrodeposition of Ni-P alloys.In the electrooxidation process,an absorbency band around 240nm,which was ascribed to the formation of an intermediate PHO2-,was observed by in situ UV-Vis subtractive reflectance spectroscopy.Accordingly,the electrooxidation of hypophosphite might undergo an H abstraction of hypophosphite from the P-H bond to form the phosphorus-centred radical ' PHO2- ,which was subsequently electrooxidized to the final product,phosphite.In the reduction process Ni-phos-phine compound Ni-(PH3)n was observed by in situ surface Raman spectroscopy.The results from the Raman experiments show that,in the NiSO4-free solution,hypophosphite was reduced only to Ni-phosphine compound,while in the case where NiSO4 coexisted in the solutions,the Ni-phosphine compound,as an intermediate,was oxidise