Scientists have set out a way to suck planet-heating carbon pollution from the air, turn it into sodium bicarbonate and store it in oceans, according to a new paper.

The technique could be up to three times more efficient than current carbon capture technology, say the authors of the study, published Wednesday in the journal Science Advances.

Tackling the climate crisis means drastically reducing the burning of fossil fuels, which releases planet-heating pollution.

But because humans have already pumped so much of this pollution into the atmosphere and are unlikely to sufficiently reduce emissions in the near term, scientists say we also need to remove it from the air.

Nature does this – forests and oceans, for example, are valuable carbon sinks – but not quickly enough to keep pace with the amounts humans are producing. So we have turned to technology.

One method is to capture carbon pollution directly at the source, for example from steel or cement plants.

But another way, which this study focuses on, is “direct air capture.” This involves sucking carbon pollution directly out of the atmosphere and then storing it, often by injecting it into the ground.

The problem with direct air capture is that while carbon dioxide may be a very potent planet-heating gas, its concentrations are very small – it makes up about 0.04% of air.

This means removing it directly from the air is challenging and expensive.

It’s a “significant hurdle,” Arup SenGupta, a professor at Lehigh University and a study author, told CNN.

Even the biggest facilities can only remove relatively small amounts and it costs several hundred dollars to remove each ton of carbon.

Climeworks’ direct air removal project in Iceland is the largest facility, according to the company, and can capture up to 4,000 tons of carbon dioxide a year.

That’s equivalent to the carbon pollution produced by fewer than 800 cars over a year.

The new technique laid out in the study can help tackle those problems, said SenGupta.

The team have used copper to modify the absorbent material used in direct air capture. The result is an absorbent “which can remove CO2 from the atmosphere at ultra-dilute concentration at a capacity which is two to three times greater than existing absorbents,” SenGupta said.

This material can be produced easily and cheaply and would help drive down the costs of direct air capture, he added.

Once the carbon dioxide is captured, it can then be turned into sodium bicarbonate – baking soda – using seawater and released into the ocean at a small concentration.

The oceans “are infinite things,” SenGupta said.

“If you put all the CO2 from the atmosphere, emitted every day – or every year – into the ocean, the increase in concentration would be very, very minor,” he said.

SenGupta’s idea is that direct air capture plants can be located offshore, giving them access to abundant amounts of seawater for the process.

Stuart Haszeldine, professor of carbon capture and storage at the University of Edinburgh, who was not involved in the study, told CNN that the chemistry was “novel and elegant.”

The process is a modification of one we already know, he said, “which is easier to understand, scale-up and develop than something totally new.”