Published by Todd Bush on September 20, 2024
Researchers from Tokyo Metropolitan University have developed an innovative electrochemical cell that efficiently converts captured carbon dioxide (CO2) into formate, a green fuel. This new system, the results of which were published in the journal EES Catalysis, has the potential to address one of carbon capture's most critical challenges: finding practical uses for the captured CO2 while ensuring energy efficiency.
>> In Other News: Holcim Invests in Sublime Systems to Scale Up Innovative Low-carbon Technology
"Carbon capture and utilization to convert atmospheric CO2 into useful chemicals and fuels is essential for achieving a carbon-neutral or negative emission future," the researchers wrote in the study. Yet the question of what to do with captured CO2 has remained a persistent challenge.
Typically, captured CO2 is stored underground, but scientists are working on ways to convert it into something more useful. One promising approach is turning CO2 into environmentally friendly fuels, such as formate, which can be used in fuel cells to generate power in a similar way to hydrogen.
Formates are already produced in large quantities for use as road and sidewalk de-icers and are safe, non-combustible, and simple to handle and store—significant advantages over other sustainable fuel candidates like hydrogen and methanol. They can be kept in regular steel tanks and maintain their stability for months or even years, making them highly durable and practical for long-term use.
Current methods of converting CO2 into formate often require pure, pressurized CO2 gas. However, this process is highly energy-intensive and inefficient, making it impractical for widespread industrial use.
A more promising solution is the use of reactive carbon capture (RCC), which involves dissolving CO2 in alkaline solutions, like bicarbonate, and converting it directly into formate ions. The challenge has been to create an electrochemical cell that can selectively produce formate ions without triggering undesirable side reactions, such as hydrogen production.
The team's electrochemical cell features a porous membrane made from cellulose ester that separates the electrodes from the polymer electrolyte membrane. This design enhances the cell's ability to selectively convert bicarbonate ions into formate ions, with hydrogen ions passing through the electrolyte membrane and reacting with bicarbonate ions in the porous layer to produce CO2, which is then efficiently converted into formate ions.
The team's cell demonstrated a faradaic efficiency of 85 percent, meaning that 85 percent of the electrons used in the process were successfully converted into formate rather than other byproducts—an improvement on existing designs.
The cell was also more durable than other techniques, operating efficiently for over 30 hours and achieving near-complete conversion of bicarbonate into formate. Once water is removed from the solution, the result is solid, crystalline formate fuel.
"Given the demands on climate change technology, improvements like this to the efficient running of electrochemical cells promise to have a big impact," the team said in a statement. They hope the new electrolyzer can be a viable option for society as it shifts toward a greener future.
Follow the money flow of climate, technology, and energy investments to uncover new opportunities and jobs.
Inside this Issue 💡 Bill Gates-backed Startup Says a Global Gold Rush for Buried Hydrogen is Picking Up Momentum 🌍 Largest Hydrogen Highway to Link America and Europe: 10 Million Metric Tons and a...
Inside this Issue 🌿 Gevo to Acquire Red Trail Energy Assets in North Dakota, Including Operating Low-carbon Ethanol Production and Carbon Sequestration Facilities, Expanding Platform for Sustainab...
Inside this Issue 💡 1PointFive's South Texas Direct Air Capture Hub Awarded U.S. Department of Energy Funding 🔗 H2 Clipper's Patented 'Hydrogen Ledger' Uses Blockchain Technology to Track Purity a...
UNDO Lands Groundbreaking Carbon Removals Financing Deal in 'Global First'
UK carbon removal start-up UNDO has secured an innovative debt financing deal, supported by significant corporates like British Airways and Standard Chartered, to accelerate the expansion of its en...
Say Goodbye to EVs – This Water-Hydrogen Engine Will Change Everything in Automotion
Honda launches a model identical to the Dodge Challenger – here’s when you can buy it Neither Toyota nor Hyundai – JD Power confirms the list of most reliable cars on the US market. Chevy an...
New Technology Transforms Captured Carbon Into Clean Energy Source
Researchers from Tokyo Metropolitan University have developed an innovative electrochemical cell that efficiently converts captured carbon dioxide (CO2) into formate, a green fuel. This new system,...
Holcim Invests in Sublime Systems to Scale Up Innovative Low-carbon Technology
Startup developed proprietary CO2-free electrochemical process to produce low-carbon cement Investment covers Sublime’s first commercial manufacturing facility, giving Holcim a large share of ...
Follow the money flow of climate, technology, and energy investments to uncover new opportunities and jobs.