Tuning MXene Properties through Cu Intercalation: Coupled Guest/Host Redox and Pseudocapacitance

Shianlin Wee, Xiliang Lian, Evgeniya Vorobyeva, Akhil Tayal, Vladimir Roddatis, Fabio La Mattina, Dario Gomez Vazquez, Netanel Shpigel, Mathieu Salanne, Maria R. Lukatskaya

Research output: Contribution to journalArticlepeer-review

Abstract

MXenes are 2D transition metal carbides, nitrides, and/or carbonitrides that can be intercalated with cations through chemical or electrochemical pathways. While the insertion of alkali and alkaline earth cations into Ti3C2Tx MXenes is well studied, understanding of the intercalation of redox-active transition metal ions into MXenes and its impact on their electronic and electrochemical properties is lacking. In this work, we investigate the intercalation of Cu ions into Ti3C2Tx MXene and its effect on its electronic and electrochemical properties. Using X-ray absorption spectroscopy (XAS) and ab initio molecular dynamics (AIMD), we observe an unusual phenomenon whereby Cu2+ ions undergo partial reduction upon intercalation from the solution into the MXene. Furthermore, using in situ XAS, we reveal changes in the oxidation states of intercalated Cu ions and Ti atoms during charging. We show that the pseudocapacitive response of Cu-MXene originates from the redox of both the Cu intercalant and Ti3C2Tx host. Despite highly reducing potentials, Cu ions inside the MXene show an excellent stability against full reduction upon charging. Our findings demonstrate how electronic coupling between Cu ions and Ti3C2Tx modifies electrochemical and electronic properties of the latter, providing the framework for the rational design and utilization of transition metal intercalants for tuning the properties of MXenes for various electrochemical systems.

Original languageEnglish
JournalACS Nano
DOIs
StatePublished - 9 Apr 2024
Externally publishedYes

Bibliographical note

Publisher Copyright:
© 2024 The Authors. Published by American Chemical Society.

Keywords

  • 2D materials
  • MXenes
  • ab initio molecular dynamics
  • charge storage mechanism
  • in situ X-ray absorption spectroscopy
  • pseudocapacitance
  • transition metal intercalation

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