A study is presented on the synthesis and characterization of nanoporous AgPt and AgAu alloys after annealing and dealloying in 5% HClO 4. Dealloying removes the less-noble atom from the alloy surface to produce nanoporous, highly-interconnected ligaments. Voltammetry of AgPt and AgAu shows the critical potential, Ec, at various potential scan rates. Potential hold current decay experiments on Ag-23Pt and Ag-23Au further show the intrinsic Ec to be 275 mV and 290 mV, respectively. E c was governed by thermodynamic clustering in the alloys as opposed to dissolution-diffusion kinetic effects. EDX shows the starting 77Ag-23Pt material changes composition after dealloying to about 12Ag-88Pt. XRD indicates the presence of ordering in AgPt via a superlattice (100)-peak for a specific anneal treatment. EIS measurements done on as-annealed and dealloyed AgPt and AgAu samples show the onset of bulk porosity and show that capacitance increase is equal for both alloys at two different dealloying potentials.
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机译:在5%HClO 4中退火和脱合金后,对纳米多孔AgPt和AgAu合金的合成和表征进行了研究。脱合金处理从合金表面去除了稀有原子,从而产生了纳米孔,高度互连的韧带。 AgPt和AgAu的伏安法显示出各种电势扫描速率下的临界电势Ec。在Ag-23Pt和Ag-23Au上进行的电位保持电流衰减实验进一步表明,本征Ec分别为275 mV和290 mV。 E c由合金中的热力学团簇控制,这与溶解扩散动力学效应相反。 EDX显示起始合金77Ag-23Pt脱合金至约12Ag-88Pt后会改变成分。 XRD表示针对特定退火处理,通过超晶格(100)峰在AgPt中存在有序。在退火和脱合金的AgPt和AgAu样品上进行的EIS测量表明,出现了整体孔隙率,并且表明在两种不同的脱合金电位下,两种合金的电容增加均相等。
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