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30 maj 2024 · Producing valuable chemicals like ethylene via catalytic carbon monoxide conversion is an important nonpetroleum route. Here we demonstrate an electrochemical route for highly efficient synthesis of multicarbon (C2+) chemicals from CO.
2 sty 2023 · A unique *CO transfer and spillover strategy was developed by fabricating Ni single atom supported on pyridinic N-enriched carbon as a *CO donor for feeding Cu NPs with *CO, boosting the coverage of *CO on Cu NPs and subsequently improving the selectivity for CO 2 -C 2 H 4 conversion.
A strategy that uses carbon monoxide (CO) as a “transfer station” to produce C 2+ at improved selectivity and reaction rates via the tandem ECO 2 R to CO and electrochemical CO reduction (ECOR) has attracted a lot attention.
20 sie 2018 · As an alternative to direct CO 2 electrolysis, a two-step cascade process where CO 2 is initially reduced to CO and then sequentially reduced to multi-carbon (C 2+) products holds...
29 paź 2018 · The nanocavities showed a morphology-driven shift in selectivity from C2 to C3 products during the carbon monoxide electroreduction, to reach a propanol Faradaic efficiency of 21 ± 1% at a ...
14 wrz 2018 · Here, nanotechnology toward engineering hybrid photosystem involving biological photosynthetic chloroplasts and dual-emissive carbon dots (CDs) is employed for improved photosynthesis by harnessing more effective light.
11 kwi 2018 · The pyrolysis temperature determines the amount and the accessibility of N species in the carbon electrode, in which pyridinic-N and quaternary-N species play key roles in the selective formation of carbon monoxide.
