Abstract
A newly developed nanocomposite catalyst, Au/Ce2S3@CeO2/CuS, has been engineered for effective propargylamine synthesis through the A3 coupling reaction. The catalyst’s synthesis involved the targeted addition of 15 wt% CeO2 to the CuS sulfur precursor, leading to the formation of a Ce2S3 layer due to its lower solubility product constant (Ksp). This layer, along with 0.5 wt% Au nanoparticles, significantly increased the Ce3+ concentration (16.9 % to 33 %–52 %), which can accelerate the Cu+/Cu2+ valence state changes, thereby promoting the activation of the alkynyl hydrogen to enhance propargylamine formation. After 2 h reaction, the Au/Ce2S3@CeO2/CuS catalyst achieved over 99 % conversion, nearly 55 % more than pure CuS (45.5 %). The Au/Ce2S3@CeO2/CuS nanocomposite also showed excellent recyclability (80 % retention after 5 cycles) and a high conversion rate of 222.5 mmol·g−1·h−1.
Published Version
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