Current status and future prospect of CO2 to ethanol: a review.
Diksha Kumari, Kusam, Shivani Sahu, Vijay Kumar Garlapati, Arindam Kuila
Abstract
Open AccessThe escalation of atmospheric CO₂ caused by human activities calls for the creation of novel approaches for carbon capture and utilization. A viable strategy to slow down climate change and support the circular carbon economy is to convert CO₂ into ethanol, a valuable biofuel. The present state of CO₂ to ethanol conversion technology is thoroughly reviewed in this paper, with an emphasis on developments in catalytic, electrochemical, and hydrogenation processes. With the development of innovative electrodes and electrolytes, electrochemical techniques utilizing renewable energy have advanced, now offering a viable route for reducing CO₂. This review presents the latest developments in CO₂-to-ethanol conversion. It evaluates the technical and financial viability of current processes by considering efficiency, cost, and scalability, while also addressing key challenges and outlining potential future directions for advancing clean ethanol fuel production. Overall, electrochemical, thermocatalytic, and bio-electrocatalytic pathways show strong promise, but their success depends on breakthroughs in catalyst design, process optimization, and sustainable implementation to enable large-scale deployment.