Crab shells used to make nanocarbon material for electronics


Wednesday, 14 April, 2021

Crab shells used to make nanocarbon material for electronics

As the demand for electronic devices continues to grow, so too does the strain on the finite resources used in their production, such as metals and fossil fuels. In an effort to provide renewable alternatives, researchers from Osaka University have developed a nanocarbon material for electronics applications made from chitin derived from crab shells, with their results published in the Journal of Materials Chemistry C.

Nanocarbon materials show significant promise for use in electronic devices. In particular, those with porous three-dimensional (3D) structures provide efficient networks for the transport of charge as well as electrolytes and reactants. The flow through these networks can be further improved by the addition of imperfections — known as defects — in the form of different atoms, such as nitrogen.

Efforts to use both synthetic polymers and biomass to prepare 3D porous nanocarbon with defects have led to effective sensing, energy storage and electrocatalysis materials. However, many of these are made from non-renewable resources or require multiple steps to prepare the network and introduce the defects.

The Osaka researchers have now developed 3D porous defective nanocarbon materials through the simple pyrolysis — or thermal decomposition — of chitin nanofibre paper. Chitin is a biopolymer that is the major component of crustacean shells. Because the structure of chitin contains nitrogen atoms, it acts as its own source of defects and no doping steps are required.

“We were able to control various properties of the final nanocarbon materials by pyrolysing the chitin nanofibre paper at different temperatures,” said study first author Luting Zhu. “The pore structure, specific surface area and electrical resistivity all varied with the pyrolysis temperature, providing us with a useful means of tuning the material for specific applications.”

The pyrolysed chitin nanofibre papers were successfully used as photosensors, exhibiting lower resistance when exposed to light. They were also shown to be effective supercapacitor electrodes (electrical components that can store electric charge in an electric field), with higher specific capacitance than many other nanocarbon materials reported to date, indicating their potential for use in energy storage.

“In order to translate laboratory findings into products that make a significant impact in the real world, it is important to streamline processes, which is why we are excited about our simple pyrolysis treatment,” said corresponding author Hirotaka Koga. “Furthermore, our successful use of a renewable resource that is generally considered a waste product demonstrates the viability of sustainable electronics.”

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Originally published here.

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