Physics and electrochemistry of oxide growth

机译：氧化物生长的物理学和电化学

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The growth of the passive film on tungsten in phosphate buffer solution has been described in terms of the Point Defect Model(PDM). the steady-state current and passive film thickness have been measured as a function of voltage, with the film thickness beingobtained from an analysis of capacitance and reflectance data. The observed data cannot be accounted for by the High Field Model (HFM) in its classical form, but can be understood in terms of the PDM. Diagnostic criteria that have been derived from the PDM were used to identify the majority charge carriers in the passive film. The Point Defect Model was employed, together with Mott-Schottky analysis to explore the crystallographic defect structures of the passive films. whereas their electronic structures have been studied using photoelectrochemical impedance spectroscopy (PEIS). The experimental results demonstrate that these structures are strongly coupled with the vacancies acting as the dopants.

机译：已经根据点缺陷模型（PDM）描述了磷酸盐缓冲溶液中钨的被动膜的生长。已经测量了稳态电流和无源膜厚度作为电压的函数，膜厚度从电容和反射数据的分析中呈现。观察到的数据不能通过高现场模型（HFM）以其经典形式占，但可以以PDM在PDM方面理解。用于衍生自PDM的诊断标准用于识别被动膜中的多数电荷载体。使用点缺陷模型，以及Mott-Schottky分析，探讨被动膜的晶体缺陷结构。虽然他们的电子结构已经使用光电化学阻抗光谱（PEI）研究。实验结果表明，这些结构与作为掺杂剂的空位强烈耦合。

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《Symposium on aqueous chemistry and geochemistry of oxides, oxyhydroxides, and related materials》|1997年||共13页
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Elzbieta Sikora; Digby D.Macdonald; Materials Research Society;
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Physics and electrochemistry of oxide growth

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