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Temperature Evolution of Composition, Thermal, Electrical and Magnetic Properties of Ti3C2Tx-MXene

Shreyas Srivatsa, W. Tokarz, J. Przewoźnik, Tomasz Strączek, Krzysztof Grabowski, Paweł Rutkowski, Tadeusz Uhl, J. Kulawik, Dariusz Kata, Dominika Madej, Jerzy Lis, Cz. Kapusta

2024Materials14 citationsDOIOpen Access PDF

Abstract

MXenes are a family of two-dimensional nanomaterials. Titanium carbide MXene (Ti3C2Tx-MXene), reported in 2011, is the first inorganic compound reported among the MXene family. In the present work, we report on the study of the composition and various physical properties of Ti3C2Tx-MXene nanomaterial, as well as their temperature evolution, to consider MXenes for space applications. X-ray diffraction, thermal analysis and mass spectroscopy measurements confirmed the structure and terminating groups of the MXene surface, revealing a predominant single OH layer character. The temperature dependence of the specific heat shows a Debye-like character in the measured range of 2 K–300 K with a linear part below 10 K, characteristic of conduction electrons of metallic materials. The electron density of states (DOS) calculations for Ti3C2OH-MXene reveal a significant DOS value at the Fermi level, with a large slope, confirming its metallic character, which is consistent with the experimental findings. The temperature dependence of electrical resistivity of the MXene samples was tested for a wide temperature range (3 K–350 K) and shows a decrease on lowering temperature with an upturn at low temperatures, where negative magnetoresistance is observed. The magnetoresistance versus field is approximately linear and increases its magnitude with decreasing temperature. The magnetization curves are straight lines with temperature-independent positive slopes, indicating Pauli paramagnetism due to conduction electrons.

Topics & Concepts

Materials scienceThermalComposition (language)ThermodynamicsPhysicsPhilosophyLinguisticsMXene and MAX Phase Materials2D Materials and ApplicationsAdvanced Memory and Neural Computing
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