电解
聚电解质
聚砜
化学工程
材料科学
电解质
复合数
离子电导率
电导率
多孔性
格式化
选择性
导电体
电解槽
澄清器
快离子导体
电极
电解水
电容
作者
Sarah Aderyani,Tae‐Ung Wi,Karolina Santos,Ahmad Elgazzar,Andrea Hicks,Haotian Wang,Rafael Verduzco
标识
DOI:10.1021/acs.est.5c03612
摘要
Conventional CO2 reduction electrolyzers typically employ liquid-based electrolytes, resulting in expensive postsynthesis purification steps to recover the product. Solid-state reactors address product separation challenges, but current particle-based solid electrolytes face issues with long-term stability, scalability, reusability, and challenging cell assembly. Here, we report a free-standing and highly conductive porous composite polyelectrolyte for CO2 electrolysis produced by combining ion-exchange particles with sulfonated polysulfone as a binder. The resulting composite polyelectrolyte achieves an ionic conductivity as high as 10.4 mS cm-1 while maintaining excellent mechanical properties. When used in a CO2 electrolyzer, formate selectivity consistently exceeded 90% at current densities up to 200 mA cm-2, and the electrolyzer maintained a cell potential close to 3.5 V over 220 h at 100 mA cm-2. Technoeconomic and life cycle assessments further highlight the scalability and sustainability of this approach, advancing the development of large-scale, energy-efficient solid-state CO2 electrolyzers.
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