英语翻译PdNi/C catalysts have been successfully synthesized by thesimultaneous reduction method using NaBH4 as a reductant andhave been characterized by different physicochemical methods.XRD analyses confirm the formation of face-centered cubic c

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英语翻译PdNi/CcatalystshavebeensuccessfullysynthesizedbythesimultaneousreductionmethodusingNaBH4asareduc

英语翻译PdNi/C catalysts have been successfully synthesized by thesimultaneous reduction method using NaBH4 as a reductant andhave been characterized by different physicochemical methods.XRD analyses confirm the formation of face-centered cubic c
英语翻译
PdNi/C catalysts have been successfully synthesized by the
simultaneous reduction method using NaBH4 as a reductant and
have been characterized by different physicochemical methods.
XRD analyses confirm the formation of face-centered cubic crystalline
Pd and Ni(OH)2 on the carbon powder for the PdNi/C
catalysts.The TEM images show the well-dispersed metal particles
on the carbon powder,and EDS data indicate a uniform distribution
of composition.The CV and CP results demonstrate that the
Pd2Ni3/C catalyst exhibits superior activity and stability toward
EOR in alkaline media compared with the Pd/C catalyst,and the various
oxidation states of Ni,which are uniformly distributed around
Pd,account for the role of Ni as a catalytically enhancing agent
toward EOR in alkaline media.Fuel cell performance tests demonstrate
that the optimized Pd2Ni3/C catalyst prepared in this work
is a promising anode catalyst for alkaline DEFCs by giving higher

英语翻译PdNi/C catalysts have been successfully synthesized by thesimultaneous reduction method using NaBH4 as a reductant andhave been characterized by different physicochemical methods.XRD analyses confirm the formation of face-centered cubic c
现在通过同步还原方法,用NaBH4做还原剂,已成功合成了PdNi/C催化剂,这些催化剂的特点在于它们具备多种不同的物理化学性质.经过X射线衍射(XRD)分析,确认在PdNi/C催化剂的碳粉上形成了面心立方晶体钯和氢氧化镍晶体.透射电子显微镜(TEM)观察到的图像显示碳粉上存在着分布均匀的金属微粒,而且电子数据系统(EDS)的数据也表明合成物分布均匀.循环伏安法(CV)和化学纯度法(CP)的测试结果表明:与Pd/C催化剂相比,Pd2Ni3/C催化剂对碱性介质中的催化剂运行末期(EOR)展示出优异的活动性和稳定性,而且在钯周围均匀分布着不同氧化态镍,这说明镍在碱性介质EOR方面扮演着加强催化反应的媒介角色.燃料电池性能测试表明:这项工作所准备的最优化Pd2Ni3/C催化剂是适用于碱性直接乙醇燃料电池(DEFC)的一种有发展前景的阳极催化剂.

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PdNi / C催化剂已经成功地合成了
同时使用NaBH4还原法作为还原剂和
特点是由不同的物理化学方法。
XRD分析确认形成面心立方晶体
Pd和镍(OH)2在碳粉为PdNi / C
催化剂。这个TEM图片显示了金属粒子的说法
在碳粉,和EDS数据显示一个均匀分布
作文。简历和CP结果证明
Pd2Ni3 / C催化剂活性和稳定性的展品...

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PdNi / C催化剂已经成功地合成了
同时使用NaBH4还原法作为还原剂和
特点是由不同的物理化学方法。
XRD分析确认形成面心立方晶体
Pd和镍(OH)2在碳粉为PdNi / C
催化剂。这个TEM图片显示了金属粒子的说法
在碳粉,和EDS数据显示一个均匀分布
作文。简历和CP结果证明
Pd2Ni3 / C催化剂活性和稳定性的展品优越向
三次采油在碱性媒体相比Pd / C催化剂,以及各种各样的
氧化状态的镍,周围均匀分布
Pd,帐户角色的镍作为催化地增强剂
对三次采油在碱性媒体。燃料电池性能测试演示
算法的优化Pd2Ni3 / C催化剂在这个工作做好准备
是一个有前途的阳极催化剂碱性DEFCs给予更高吗

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