Tuning Thermal Transport Through Atomically Thin Ti 3 C 2 T z MXene by Current Annealing in Vacuum

Tuning Thermal Transport Through Atomically Thin Ti 3 C 2 T z MXene by Current Annealing in Vacuum

Heat transport across vertical interfaces of heterogeneous 2D materials is usually governed by the weak Van der Waals interactions of the surface‐terminating atoms. Such interactions play a significant role in thermal transport across transition metal carbide and nitride (MXene) atomic layers due to...

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Veröffentlicht in:Advanced functional materials 2019-05, Vol.29 (19)
Hauptverfasser: Hemmat, Zahra, Yasaei, Poya, Schultz, Jeremy F., Hong, Liang, Majidi, Leily, Behranginia, Amirhossein, Verger, Louisiane, Jiang, Nan, Barsoum, Michel W., Klie, Robert F., Salehi‐Khojin, Amin
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Sprache:eng
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Zusammenfassung:Heat transport across vertical interfaces of heterogeneous 2D materials is usually governed by the weak Van der Waals interactions of the surface‐terminating atoms. Such interactions play a significant role in thermal transport across transition metal carbide and nitride (MXene) atomic layers due to their hydrophilic nature and variations in surface terminations. Here, the metallicity of atomically thin Ti 3 C 2 T z MXene, which is also verified by scanning tunneling spectroscopy for the first time, is exploited to develop a self‐heating/self‐sensing platform to carry out direct‐current annealing experiments in high (
ISSN:1616-301X
1616-3028
DOI:10.1002/adfm.201805693