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Abstract
Titanium nitride is an exciting plasmonic material, with optical properties similar to gold. However, synthesizing TiN nanocrystals is highly challenging and typically requires solid-state reactions at very high temperatures (800-1000°C). Here, we achieve the synthesis of TiN nanocrystals at temperatures as low as 350°C, in just three hours. The strategy comprises molten salt, Mg as reductant and Ca3N2 as nitride source. This brings TiN from the realm of solid-state chemistry into the field of solution-based synthesis in regular, borosilicate glassware.
Supplementary materials
Title
Molten Salt-Assisted synthesis of Titanium Nitride
Description
This part includes the experimental section and additional data, including the complementary XRD data.
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Title
Thermodynamic calculation
Description
This file summarizes all the thermodynamic calculations discussed in the main text.
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