Ti2Au2C and Ti3Au2C2 formed by solid state reaction of gold with Ti2AlC and Ti3AlC2

Incorporation of layers of noble metals in non-van der Waals layered materials may be used to form novel layered compounds. Recently, we demonstrated a high-temperature-induced exchange process of Au with Si in the layered phase Ti3SiC2, resulting in the formation of Ti3AuC2 and Ti3Au2C2. Here, we g...

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Published in:Chemical communications (Cambridge, England) England), 2017, Vol.53 (69), p.9554-9557
Main Authors: Fashandi, H, Lai, C-C, Dahlqvist, M, Lu, J, Rosen, J, Hultman, L, Greczynski, G, Andersson, M, Lloyd Spetz, A, Eklund, P
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container_issue 69
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container_title Chemical communications (Cambridge, England)
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creator Fashandi, H
Lai, C-C
Dahlqvist, M
Lu, J
Rosen, J
Hultman, L
Greczynski, G
Andersson, M
Lloyd Spetz, A
Eklund, P
description Incorporation of layers of noble metals in non-van der Waals layered materials may be used to form novel layered compounds. Recently, we demonstrated a high-temperature-induced exchange process of Au with Si in the layered phase Ti3SiC2, resulting in the formation of Ti3AuC2 and Ti3Au2C2. Here, we generalize this technique showing that Au/Ti2AlC and Au/Ti3AlC2 undergo an exchange reaction at 650 °C to form Ti2Au2C and Ti3Au2C2 and determine their structures by electron microscopy, X-ray diffraction, and ab initio calculations. These results imply that noble-metal-containing layered phases should be possible to synthesize in many systems. The metal to be introduced should be inert to the transition-metal carbide layers, and exhibit negative heat of mixing with the initial A element in a liquid phase or two-phase liquid/solid region at the annealing temperature.
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title Ti2Au2C and Ti3Au2C2 formed by solid state reaction of gold with Ti2AlC and Ti3AlC2
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