Vantika

Indian Scientists Discover Coconut Fibre Can Store Hydrogen

Posted on: 10 November 2014


Material scientist Viney Dixit and his team at the Hydrogen Energy Center of Banaras Hindu University in India have discovered that carbonized coconut flesh contains secret ingredients that dramatically enhance its ability to store hydrogen.

Hydrogen is a potential renewable fuel because it can easily be generated from water using electrolysis. It also burns cleanly to produce water vapor. The hope is that it could also be distributed using the same global network of liquid fuel transport that moves petrol around the planet. However, one of the main challenges in its wide adoption as a renewable fuel is that hydrogen is difficult to store efficiently as it has a poor energy density by volume compared to petrol. That is why much of the material science research in this area has focused on finding materials that adsorb hydrogen efficiently and then release it again when it is required.

In their research, Viney and his team have shown that coconut outperforms a number of other hydrogen storage materials, particularly in its ability to work over many charging cycles. The team spent some time studying the microstructure of the carbonized coconut flesh to work out why it performs so well. And they have pinpointed two mechanisms. The first is that the carbonized coconut flesh contains a significant amount of potassium chloride, which polarizes the carbon matrix in which it is embedded. This enhances the hydrogen adsorption capacity. The second is that the carbon matrix also contains significant amounts of magnesium, which is known to enhance the dissociation of hydrogen molecules, making them easier to adsorb. That is an interesting result that suggests some promising avenues for future research. Read more

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