脱氢
成核
吸附
催化作用
材料科学
氨
纳米晶
面(心理学)
化学工程
氨硼烷
氢
氨生产
纳米技术
大规模运输
功率密度
光化学
化学
燃料电池
化学物理
密度泛函理论
反应机理
作者
Zhen‐Hua Lyu,Xinbo Ma,Tang Tang,Xiaozhi Liu,Zhe Jiang,Xuerui Liu,Ze‐Cheng Yao,Libing Zhang,Jiaju Fu,Liang Ding,Zhuo‐Qi Shi,Xiaoying Lu,Dong Su,Jin‐Song Hu
摘要
ABSTRACT Direct ammonia fuel cells (DAFCs) are promising for decarbonized electricity generation. However, the sluggish ammonia oxidation reaction (AOR) has long been the major roadblock. Although Pt(100) facet features high AOR activity, fabricating ultrasmall (<5 nm) Pt‐based nanocubes (NCs) with (100) facet orientation remains a challenge. Here, we develop a Zn‐mediated strategy for the synthesis of PtIr─Zn NCs with an ultrasmall size of 4.1 ± 0.5 nm. Systematic investigations reveal that surface‐inserted Zn atoms serve as anchors to enhance the specific adsorption of dibenzyl ether, which directs the exclusive (100)‐oriented growth into well‐defined NCs. The initial nucleation process is not affected, so there are abundant PtIr seeds, which are the key to yielding the sub‐5 nm size. Oxophilic Ir atoms serve as the *OH adsorption sites and promote the *NH 3 dehydrogenation. Moreover, Zn‐induced surface compression lowers the barrier of rate‐determining dehydrogenation step by shortening the hydrogen bonds between *NH 3 and *OH. Our PtIr─Zn NCs catalyst exhibits both high intrinsic activity and mass activity, delivering an ultralow onset potential of 0.355 V and a peak mass activity of 238.3 mA mg Pt+Ir −1 . The DAFC employing PtIr─Zn NCs achieves an open‐circuit voltage of 0.60 V and a peak power density of 76.0 mW cm −2 .
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