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Superior mechanical properties of multilayer covalent-organic frameworks enabled by rationally tuning molecular interlayer interactions

Qiyi Fang, Zhengqian Pang, Qing Ai, Yifeng Liu, Tianshu Zhai, Doug Steinbach, Guanhui Gao, Yifan Zhu, Teng Li, Jun Lou

2023Proceedings of the National Academy of Sciences61 citationsDOIOpen Access PDF

Abstract

Two-dimensional (2D) covalent-organic frameworks (COFs) with a well-defined and tunable periodic porous skeleton are emerging candidates for lightweight and strong 2D polymeric materials. It remains challenging, however, to retain the superior mechanical properties of monolayer COFs in a multilayer stack. Here, we successfully demonstrated a precise layer control in synthesizing atomically thin COFs, enabling a systematic study of layer-dependent mechanical properties of 2D COFs with two different interlayer interactions. It was shown that the methoxy groups in COF TAPB-DMTP provided enhanced interlayer interactions, leading to layer-independent mechanical properties. In sharp contrast, mechanical properties of COF TAPB-PDA decreased significantly as the layer number increased. We attributed these results to higher energy barriers against interlayer sliding due to the presence of interlayer hydrogen bonds and possible mechanical interlocking in COF TAPB-DMTP, as revealed by density functional theory calculations.

Topics & Concepts

Covalent bondMaterials scienceMonolayerDensity functional theoryStack (abstract data type)Layer (electronics)PorosityHydrogen bondNanotechnologyMechanical energyInterlockingLayer by layerChemical physicsComposite materialMoleculeComputational chemistryChemistryOrganic chemistryComputer scienceEngineeringQuantum mechanicsProgramming languageMechanical engineeringPhysicsPower (physics)Covalent Organic Framework ApplicationsGraphene research and applicationsLuminescence and Fluorescent Materials
Superior mechanical properties of multilayer covalent-organic frameworks enabled by rationally tuning molecular interlayer interactions | Litcius