Scientists at the University of Córdoba in Spain have come up with a way of incorporating hemoglobin – the key component of red blood cells – into a battery, creating a prototype that kept working for between 20 and 30 days.
To keep that reaction going, you need a good catalyst, with some very specific properties. Properties, the researchers realized, that hemoglobin certainly has. “To be a good catalyst in the oxygen reduction reaction, the catalyst has to have two properties: it needs to quickly absorb oxygen molecules, and form water molecules relatively easily,” explained senior author Manuel Cano Luna in a
Hemoglobin is the protein that gives
The researchers say that using a biocompatible catalyst like this could be key if these batteries are to be used in devices that are implanted inside the body, such as pacemakers. The battery works at pH 7.4, which is very similar to the pH of blood. The possibilities could extend beyond humans too, since hemoglobin analogs are present in many mammals.
There are still some things to perfect, however. The biggest issue at the moment is that the prototype is not rechargeable, so the team is searching for a protein that might be able to transform water back into oxygen and start the reaction cycle again from the beginning. The fact it needs oxygen at all is another limitation, meaning these sorts of batteries won’t be usable for applications in space.
But it’s still a fascinating possibility. Energy storage remains a major hurdle in humanity’s quest to move towards a more sustainable future.
A biocompatible hemoglobin-based battery might just be one of them.
The study is published in the journal