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2D surfaces twisted to enhance electron freedom toward efficient advanced oxidation processes

2024; Elsevier BV; Volume: 345; Linguagem: Inglês

10.1016/j.apcatb.2024.123701

1873-3883

Ximeng Xu, Shujing Zhang, Yuhao Wang, Nana Wang, Qinli Jiang, Xiaohong Liu, Qingqing Guan, Wei Zhang,

Electrocatalysts for Energy Conversion

Two-dimensional (2D)-interface engineering for designing effective electron-rich catalyst center is pivotal in manipulating the catalytic behaviors and activity, but still challenging. Here, we've successfully twisted the surfaces of the 2D layered FeOCl, fulfilling the targeted fine-tuning of its Fe sites. The obtained new catalyst can boost peroxymonosulfate activation for reactive species with much lower energy barriers and efficiently oxidized target organic with almost 41 orders of magnitude faster reaction kinetics than pristine FeOCl. The increased degree of freedom of electron around Fe site has been identified as the key driver. The distorted geometry structure around Fe has led to an increased polarization of charge distribution, associating with less symmetric electron valence cloud and higher electron mobility. Thus, the twisted surfaces enable a much enhanced interfacial charge transfer between Fe site and the electron-deficient peroxymonosulfate. This work highlights the concept of twisted surface construction toward efficient advanced oxidation catalyst design.