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| Main Authors: | , , , , |
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| Format: | Artículo Open Access |
| Published: |
Wiley
2026
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| Subjects: | |
| Online Access: | https://chemistry-europe.onlinelibrary.wiley.com/doi/10.1002/open.70233 |
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Table of Contents:
- Modulation of Oxygen Vacancies on Cu/ZnO by Promoter for Higher Alcohol Synthesis From Syngas Min Tian Enjuan Ma Xing Tian Wei Huang Shirong Li ChemistryOpen The influence of promoters on oxygen vacancies (Ovs) within CuZn catalysts is crucial for optimizing CO hydrogenation to higher alcohols (C 2+ OH). The CuZn catalysts were successfully prepared with controlled Ovs concentrations via a fully liquid‐phase technique through the incorporation of various promoters (Cr, Al, Ga). Additional metal atoms were introduced at ZnO tetrahedral sites of Al 3+ ‐ and Ga 3+ ‐doped CuZn catalysts, facilitating the formation of Ovs within the lattice. Conversely, Cr formed a CuCr 2 bimetallic phase mixture in the Cr‐doped CuZn, which thwarted the promotional effect of Cr 3+ in the precursor and inhibited the generation of ZnO defects. Enhanced Ovs facilitated the transport of electrons from ZnO to Cu, increasing the CuZn interaction and promoting the formation of additional Cu 0 and Zn δ + defects. The CO dissociative intermediates (CH x *) were formed at Cu 0 sites, while nondissociative intermediates (CO* and CH x O*) were formed at Cu + or Ovs sites. These intermediates then participated in CC coupling at Zn δ + sites and subsequent hydrogenation to form C 2+ OH. The Ga‐doped CuZn catalyst showed optimal performance, yielding 17.22% CO conversion with 60.22% ethanol and 71.90% C 2+ OH proportions in the alcohol products. 10.1002/open.70233 http://creativecommons.org/licenses/by/4.0/