Eco-friendly organic semiconductor technology emerges from Swedish research
by Robert Schreiber
Berlin, Germany (SPX) Jan 23, 2024
In a significant development in the field of organic electronics, researchers from Linkoping University in Sweden have introduced a novel and more environmentally sustainable method for creating conductive inks. As reported in the prestigious journal Nature Communications, this advancement stands to potentially reshape the landscape of organic electronics, encompassing applications from solar cells to artificial neurons and soft sensors.

Organic electronics have been steadily gaining attention as a viable complement and sometimes alternative to traditional silicon-based electronics. Known for their simple manufacturing process, high flexibility, and low weight, these electronics offer comparable electrical properties to conventional semiconductors. This makes them particularly suitable for a range of applications, including digital displays, energy storage, solar cells, and various sensor technologies.

At the heart of organic electronics are conjugated polymers, a type of semiconducting plastic. However, the processing of these materials has historically relied on the use of environmentally detrimental, toxic, and flammable solvents. This reliance has been a major hurdle in the sustainable and widespread adoption of organic electronic technologies.

Addressing this challenge, the team at Linkoping University has developed a new method that leverages water for processing conjugated polymers. This approach not only marks a significant shift towards sustainability but also enhances the conductive properties of the resulting inks.

Senior Associate Professor Simone Fabiano from the Laboratory of Organic Electronics at Linkoping University, a noted figure in the field and a Wallenberg Academy Fellow, elaborates on the breakthrough: "Our research introduces a new approach to processing conjugated polymers using benign solvents such as water. With this method, called ground-state electron transfer, we not only get around the problem of using hazardous chemicals, but we can also demonstrate improvements in material properties and device performance."

The researchers put their innovative conductive ink to the test in various applications, including its use as a transport layer in organic solar cells. The results were promising, showing enhanced stability and efficiency compared to traditional materials. Further applications in creating electrochemical transistors and artificial neurons revealed operating frequencies comparable to biological neurons.

The implications of this development are far-reaching. As Professor Fabiano points out, "I believe that these results can have a transformative impact on the field of organic electronics. By enabling the processing of organic semiconductors from green and sustainable solvents like water, we can mass-produce electronic devices with minimal impact on the environment."

This research not only paves the way for more environmentally friendly manufacturing processes in the field of organic electronics but also opens the door to potentially enhanced performance and broader applications of these technologies.

Research Report:Ground-state electron transfer in all-polymer donor:acceptor blends enables aqueous processing of water-insoluble conjugated polymers

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