Electrochemical Impedance Spectroscopy Investigation of the Anodic Functionalities and Processes in LSCM-CGO-Ni Systems

机译：LSCM-CGO-Ni系统中阳极功能和过程的电化学阻抗谱研究

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Electrochemical impedance spectroscopy was used to characterize anode compositions made of (La_(0.75)Sr_(0.25))_(0.97)Cr_(0.5)Mn_(0.5)O_3 (LSCM) and gadolinia doped ceria (CGO) with and without additional submicron Ni, or exsoluted Ni nanoparticles. In addition, the effects of the anode gas flow rate and the working temperature were investigated. Higher content of the ionic conductor leads to a decrease of the impedance in the frequency range from 100 Hz to 10 Hz. The effect of the catalyst component was investigated while keeping the electronic conductivity unchanged in the tested materials. Enhanced catalytic activity was demonstrated to considerably decrease the impedance especially in the frequency range between 100 Hz to 1 Hz. The change in the gas flow rate affects mainly the impedance bellow 1 Hz.

机译：电化学阻抗谱用于表征由（La_（0.75）Sr_（0.25））_（0.97）Cr_（0.5）Mn_（0.5）O_3（LSCM）和氧化ado掺杂的二氧化铈（CGO）制成的阳极组合物，含或不含其他亚微米Ni或纯Ni纳米粒子。另外，研究了阳极气体流量和工作温度的影响。离子导体的含量越高，在100 Hz到10 Hz的频率范围内阻抗会降低。在保持被测材料的电子电导率不变的同时，研究了催化剂组分的作用。已证明增强的催化活性可显着降低阻抗，尤其是在100 Hz至1 Hz之间的频率范围内。气体流量的变化主要影响1 Hz以下的阻抗。

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《International Symposium on Solid Oxide Fuel Cells》|2015年|2011-2018|共8页
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Samir Boulfrad; Aziz Nechache; Mark Cassidy; Enrico Traversa; John T. S. Irvine;
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机译：LSCM-CGO-Ni系统中阳极功能和过程的电化学阻抗谱研究

Electrochemical Impedance Spectroscopy Investigation of the Anodic Functionalities and Processes in LSCM-CGO-Ni Systems

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