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Tuning Double Layer Structure of WO3 Nanobelt for Promoting the Electrochemical Nitrogen Reduction Reaction in Water 被引量:1
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作者 HONG Qing-Shui li tang-yi +9 位作者 ZHENG Shi-Sheng CHEN Hai-Biao CHU Hong-Hao XU Kuan-Da li Shun-Ning MEI Zong-Wei ZHAO Qing-He REN Wen-Ju ZHAO Wen-Guang PAN Feng 《Chinese Journal of Structural Chemistry》 SCIE CAS CSCD 2021年第4期519-526,408,共9页
Electrochemical fixation of nitrogen to ammonia with highly active,highly selective and low cost electrocatalysts is a sustainable alternative to the extremely energy-and capital-intensive Haber-Bosch process.Herein,w... Electrochemical fixation of nitrogen to ammonia with highly active,highly selective and low cost electrocatalysts is a sustainable alternative to the extremely energy-and capital-intensive Haber-Bosch process.Herein,we demonstrate a near electroneutral WO3 nanobelt catalyst to be a promising electrocatalyst for selective and efficient nitrogen reduction.The concept of near electroneutral interface is demonstrated by fabricating WO3 nanobelts with small zeta potential value on carbon fiber paper,which ensures a loose double layer structure of the electrode/electrolyte interface and allows nitrogen molecules access the active sites more easily and regulates proton transfer to increase the catalytic selectivity.The WO3/CFP electrode with optimal surface charge achieves a NH3 yield rate of 4.3μg·h-1·mg-1 and a faradaic efficiency of 37.3%at-0.3 V vs.RHE,rivalling the performance of the state-of-the-art nitrogen reduction reaction electrocatalysts.The result reveals that an unobstructed gas-diffusion pathway for continually supplying enough nitrogen to the active catalytic sites is of great importance to the overall catalytic performance. 展开更多
关键词 electrochemical nitrogen reduction reaction zeta potential nitrogen diffusion and transport process WO3 nanobelts first-principles calculations
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