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Phase-Transition-Induced Surface Reconstruction of Rh 1 Site in Intermetallic Alloy for Propane Dehydrogenation.

Peng YinJialong ShiMing ZuoWanqun ZhangBo PengBin JiangXian-Zhu FuHai-Wei Liang
Published in: The journal of physical chemistry letters (2024)
The fine-tuning of the geometric and electronic structures of active sites plays a crucial role in catalysis. However, the intricate entanglement between the two aspects results in a lack of interpretable design for active sites, posing a challenge in developing high-performance catalysts. Here, we find that surface reconstruction induced by phase transition in intermetallic alloys enables synergistic geometric and electronic structure modulation, creating a desired active site microenvironment for propane dehydrogenation. The resulting electron-rich four-coordinate Rh 1 site in the RhGe 0.5 Ga 0.5 intermetallic alloy can accelerate the desorption of propylene and suppress the side reaction and thus exhibits a propylene selectivity of ∼98% with a low deactivation constant of 0.002 h -1 under propane dehydrogenation at 550 °C. Furthermore, we design a computational workflow to validate the rationality of the microenvironment modulation induced by the phase transition in an intermetallic alloy.
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