2D versus 3D‐Like Electrical Behavior of MXene Thin Films: Insights from Weak Localization in the Role of Thickness, Interflake Coupling and Defects - ST2E
Article Dans Une Revue Small Année : 2024

2D versus 3D‐Like Electrical Behavior of MXene Thin Films: Insights from Weak Localization in the Role of Thickness, Interflake Coupling and Defects

Résumé

MXenes stand out from other 2D materials because they combine very good electrical conductivity with hydrophilicity, allowing cost‐effective processing as thin films. Therefore, there is a high fundamental interest in unraveling the electronic transport mechanisms at stake in multilayers of the most conducting MXene, Ti3C2Tx . Although weak localization (WL) has been proposed as the dominating low‐temperature (LT) transport mechanism in Ti3C2Tx thin films, there have been few attempts to model it quantitatively. In this work, the role of important structural parameters – thickness, interflake coupling, defects – on the dimensionality of the LT transport mechanisms in spin‐coated Ti3C2Tx thin films is investigated through LT and magnetic field dependent resistivity measurements. A dimensional crossover from 2D to 3D WL is clearly evidenced when the film thickness exceeds the dephasing length /ϕ , estimated here in the 50–100 nm range. 2D WL can be restored by weakening the coupling between adjacent flakes, the intrinsic thickness of which is lower than /ϕ, hence acting as parallel 2D conductors. Alternatively, /ϕ can be reduced down to the 10 nm range by defects. These results clearly emphasize the ability of WL quantitative study to give deep insights in the physics of electron transport in MXene thin films.
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Dates et versions

hal-04767084 , version 1 (12-11-2024)

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Sophia Tangui, Simon Hurand, Rashed Aljasmi, Ayoub Benmoumen, Marie‐laure David, et al.. 2D versus 3D‐Like Electrical Behavior of MXene Thin Films: Insights from Weak Localization in the Role of Thickness, Interflake Coupling and Defects. Small, 2024, ⟨10.1002/smll.202406334⟩. ⟨hal-04767084⟩
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