AI Article Synopsis
- Electrochemical semihydrogenation (ESH) of alkynes to alkenes is a promising method for creating pharmaceutical and polymer materials while avoiding catalyst poisoning from impurities.
- Copper (Cu) is identified as a low-cost, selective catalyst for ESH, but its effectiveness is limited; the study proposes that electron-deficient Cu can boost ESH activity by speeding up alkene desorption.
- The research shows that Cu-Ag hybrid catalysts, made by welding silver (Ag) nanoparticles to copper (Cu) nanowires, significantly increase alkyne conversion rates (2-4 times) while maintaining high selectivity for alkenes, thanks to the electron transfer that weakens alkene adsorption at Cu sites.
Article Abstract
Electrochemical semihydrogenation (ESH) of alkynes to alkenes is an appealing technique for producing pharmaceutical precursors and polymer monomers, while also preventing catalyst poisoning by alkyne impurities. Cu is recognized as a cost-effective and highly selective catalyst for ESH, whereas its activity is somewhat limited. Here, from a mechanistic standpoint, we hypothesize that electron-deficient Cu can enhance ESH activity by promoting the rate-determining step of alkene desorption. We test this hypothesis by utilizing Cu-Ag hybrids as electrocatalysts, developed through a welding process of Ag nanoparticles with Cu nanowires. Our findings reveal that these rationally engineered Cu-Ag hybrids exhibit a notable enhancement (2-4 times greater) in alkyne conversion rates compared to isolated Ag NPs or Cu NWs, while maintaining over 99% selectivity for alkene products. Through a combination of operando and computational studies, we verify that the electron-depleted Cu sites, resulting from electron transfer between Ag nanoparticles and Cu nanowires, effectively weaken the adsorption of alkenes, thereby substantially boosting ESH activity. This work not only provides mechanistic insights into ESH but also stimulates compelling strategies involving hybridizing distinct metals to optimize ESH activity.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11487759 | PMC |
| http://dx.doi.org/10.1021/acsnanoscienceau.4c00030 | DOI Listing |
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