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Synergistic effect between Co single atoms and Pt nanoparticles for efficient alkaline hydrogen evolution
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作者 Chengyong Shu Jingwen Cao +6 位作者 Zhuofan Gan Peixi Qiu Zhixu Chen lian guanwu Zhongxin Chen Chengwei Deng Wei Tang 《Materials Futures》 2024年第3期111-120,共10页
In the pursuit of sustainable energy solutions,the efficiency of the hydrogen evolution reaction(HER)in alkaline conditions has been a significant challenge,primarily due to the sluggish dissociation of water molecule... In the pursuit of sustainable energy solutions,the efficiency of the hydrogen evolution reaction(HER)in alkaline conditions has been a significant challenge,primarily due to the sluggish dissociation of water molecules on platinum(Pt)catalysts.Addressing this critical issue,our study introduces an innovative Pt-Co@NCS catalyst.This catalyst synergistically combines Pt nanoparticles with Co single atoms on a nitrogen-doped carbon scaffold,overcoming the traditional bottleneck of slow water dissociation.Its unique porous concave structure and nitrogen-enriched surface not only provide abundant anchoring sites for Co atoms but also create a conducive hydrophilic environment around the Pt particles.This design leads to a drastic improvement in the water dissociation process,as demonstrated by CO stripping and deuterium labeling experiments.Achieving an outstanding current density of 162.8 mA cm^(−2) at−0.1 V versus RHE,a Tafel slope of 26.2 mV dec^(−1),and a superior nominal mass activity of 15.75 mAμgPt^(−1),the Pt-Co@NCS catalyst represents a significant step forward in enhancing alkaline HER efficiency,indicating promising advancements in the field. 展开更多
关键词 synergistic catalysis single atom catalysts alkaline water splitting flow electrolyser hydrogen evolution
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