阴极保护
沉积(地质)
亚稳态
材料科学
化学工程
曲面(拓扑)
纳米技术
工艺工程
环境化学
环境科学
电极
电化学
化学
工程类
物理化学
地质学
有机化学
几何学
沉积物
数学
古生物学
作者
Sijie Xie,Xiaoyu Tan,Nicolas Chanut,Zhenyu Zhou,Wouter Monens,Xueliang Zhang,Hongwei Pan,Hui Pan,Xuan Zhang,Ivo F.J. Vankelecom,Jan Fransaer
出处
期刊:Angewandte Chemie
[Wiley]
日期:2025-08-31
卷期号:64 (43): e202511638-e202511638
被引量:1
标识
DOI:10.1002/anie.202511638
摘要
Abstract Cathodic deposition is an emerging technique for the preparation of metal–organic framework (MOF) films. However, monitoring and controlling the concentrations of MOF building units (i.e., metal nodes and ligands) on the electrode surface remains challenging and has yet to be reported. This limitation greatly hinders the application of this technique to the synthesis of MOFs sensitive to building unit concentrations, such as the well‐known metastable ZIF‐L. Here, using the cathodic deposition of ZIF‐L films as an example, we demonstrate how the surface metal node and ligand concentrations influence ZIF‐L film generation by utilizing in situ pH measurements and theoretical calculations. Also, we propose a strategy to regulate the concentrations of these building units, enabling the straightforward and rapid cathodic deposition of thin ZIF‐L films. With polydimethylsiloxane (PDMS) post‐modification, the electrochemically deposited ZIF‐L films on commercial anodized alumina oxide (AAO) substrate exhibit good gas separation performance, achieving a H 2 /N 2 selectivity of 19.4 and a H 2 permeance exceeding 360 GPU (1 GPU = 3.35 × 10 −1 ⁰ mol m − 2 s −1 Pa −1 ).
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