Photoreduction of CO₂ to Methanol
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CO2 + 3H2O → CH3OH + 3/2 O2
Übersicht
Photocatalysts can reduce CO₂ to methanol using sunlight and water, mimicking photosynthesis to produce liquid fuel. Copper-modified TiO₂ and other semiconductor catalysts have shown promising results. This artificial photosynthesis approach could simultaneously address CO₂ emissions and produce renewable fuel.
Teilnehmer
| Rolle | Substanz | Koeffizient | Zustand |
|---|---|---|---|
| Reaktant | Carbon Dioxide CO₂ | 1 | (g) |
| Reaktant | Water H₂O | 3 | (l) |
| Produkt | Methanol CH₃OH | 1 | (l) |
Alltägliches Beispiel
Researchers envision solar fuel stations that could convert atmospheric CO₂ into methanol fuel using sunlight and water.
Industrielle Bedeutung
Solar-to-fuel conversion via CO₂ photoreduction is an active area of research with potential to produce carbon-neutral liquid fuels.
Eigenschaften
- Typ
- Photochemical
- Reversibel
- Nein
- Energie
- Endotherm
- ΔH
- 727,0 kJ/mol
- Katalysator
- Cu/TiO₂ photocatalyst