Qiaomu Wang scite author profile

Covalent organic frameworks (COFs) with various topologies are typically synthesized by selecting and designing connecting units with rich shapes. However, this process is time-consuming and labour-intensive. Besides, the tight stacking of COFs layers greatly restrict their structural advantages. It is crucial to effectively exploit the high porosity and active sites of COFs by topological design. Herein, for the first time, inducing in situ topological changes in sub-chemometric COFs by adding graphene oxide (GO) without replacing the monomer, is proposed. Surprisingly, GO can slow down the intermolecular stacking and induce rearrangement of COFs nanosheets. The channels of D-[4+3] COFs are significantly altered while the stacking of periodically expanded framework is weakened. This not only maximizes the exposure of pore area and polar groups, but also shortens the channels and increases the redox activity, which enables high loading while enhancing host-guest interactions. This topological transformation to exhibit the structural features of COFs for efficient application is an innovative molecular design strategy.

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Preparation of functional material layers of TT-COFs with built-in formyl groups for efficient dyes removal

Wang

Liao

et al. 2022

Journal of Colloid and Interface Science

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A Description Language of Software Testing Process Based on Workflow

Wang

Lan

Wang

2012

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Qiaomu Wang

Orderly stacked ultrathin graphene oxide membranes on a macroporous tubular ceramic substrate

New potential of boron-based COFs: the biocompatible COF-1 for reactive oxygen generation and antimicrobial applications

In Situ Deformation Topology of COFs with Shortened Channels and High Redox Properties for Li–S Batteries

Preparation of functional material layers of TT-COFs with built-in formyl groups for efficient dyes removal

A Description Language of Software Testing Process Based on Workflow

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