Download This PaperHybridization of Mxene and Covalent Organic Frameworks as Electroactive Materials for Lithium-Sulfur Batteries and Oxygen Electrocatalysis
43 Pages Posted: 28 Nov 2023
Abstract
Based on the terrible situation of energy shortage and environmental pollution, the research and development of multifunctional electrochemical materials for application in the field of renewable, pollution-free, and effective energy conversion and storage is currently a hot topic. It is worth noting that the hybridization of organic and inorganic materials can not only alleviate the poor electrical conductivity of organic materials but also prevent the aggregation and oxidation of inorganic materials, which is beneficial to the electrochemical process. Herein, a series of multifunction organic-inorganic hybrids have been successfully prepared through in-situ polymerization of COF-TpDb nanolayers on the surface of Ti3C2Tx MXene sheets, followed by post-functionalization of the composites. Among these hybrids, MX@COF-TpDb modified S-cathode exhibits higher initial specific capacity and better cycle durability than pure COF-TpDb in lithium-sulfur batteries, which is mainly due to the intervention of MXene that accelerates the charge transfer. Furthermore, the working electrode assembled with Fe/Co-MX@COF-TpDb-AO demonstrates the lowest overpotential compared to other metal coordination hybrids, which is mainly attributed to the synergistic effect of iron and cobalt ions that facilitates the electrocatalytic oxygen evolution process. Equally important, Co-MX@COF-TpDb-AO shows an electrocatalytic oxygen reduction pathway close to 4e− and low H2O2 yield, which is comparable to most discovered COF-containing materials. Therefore, the idea of constructing MXene/COF hybrids sheds some light for the exploration of multifunctional electrochemical materials.
Keywords: Covalent organic frameworks, MXene, Hybrid materials, Lithium-Sulfur Batteries, Oxygen electrocatalysis
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