弯曲
氢
变形(气象学)
化学
纳米技术
模数
化学物理
分解水
弹性模量
氢键
变形机理
多孔性
功勋
结晶学
材料科学
定义明确
复合材料
屈曲
压电
催化作用
功能(生物学)
机制(生物学)
作者
Jiahui Chen,Zhen Sun,Shixuan Ma,Bing Wang,Enting Xu,T. Y. Qi,Peng Ren,Guan Zhe Zhang,Zhaoyue Yao,Jin Zhang
摘要
, six times higher than those of previous Zr(IV)-based MOF piezocatalysts. The superior flexocatalytic hydrogen evolution performance of PCN-222 crystals is attributed to the synergy among their significant flexoelectric response, large aspect ratio, and high bendability, as PCN-222 is found to possess an ultrahigh figure of merit of 0.33 for repeatable elastic bending and an ultralow Young's modulus of 0.6 GPa based on in situ bending tests. Such a high bendability of PCN-222, according to atomistic simulations, originates from the small load-bearing area and the unique self-rotation deformation mechanism of aryl and pyrrole rings. The intrinsically elastic bendability incorporated with the slender configuration of PCN-222 crystals can facilitate the generation of flexoelectric potential through buckling under ultrasonic irradiation. This study not only provides a new strategy to improve the mechanocatalytic hydrogen evolution activity of MOFs through flexocatalysis but also unveils the superior bendability of PCN-222, shedding light on its potential applications in novel flexible nanodevices.
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