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Next-generation sustainable electronics are d
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New sustainable method for creating organic semiconductors
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Researchers at Linköping University in Sweden, have developed a stable high-conductivity polymer ink. The advancement paves the way for innovative printed electronics with high energy efficiency. The results have been published in Nature Communications.
The ink can be deposited by simply spraying the solution onto a surface, making organic electronic devices easier and cheaper to manufacture. Source: Thor Balkhed
Electrically conducting polymers have made possible the development of flexible and lightweight electronic components such as organic biosensors, solar cells, light-emitting diodes, transistors, and batteries.
The electrical properties of the conducting polymers can be tuned using a method known as “doping.” In this method, various dopant molecules are added to the polymer to change its properties. Depending on the dopant, the doped polymer can conduct electricity by the motion of either negatively charged electrons (an “n-type” conductor), or positively charged
22nd April 2021 8:35 am 22nd April 2021 8:35 am
A stable high-conductivity polymer ink has the potential to lead to innovative printed electronics with high energy efficiency, researchers claim.
The ink can be deposited by simply spraying the solution onto a surface, making organic electronic devices easier and cheaper to manufacture (Image: Thor Balkhed)
Electrically conducting polymers have led to flexible and lightweight electronic components including organic biosensors, solar cells, light-emitting diodes, transistors, and batteries.
The electrical properties of the conducting polymers can be tuned via ‘doping’, a process in which dopant molecules are added to the polymer to change its properties.
The doped polymer can conduct electricity via electrons (an n-type conductor), or positively charged holes (a p-type conductor). The most commonly used conducting polymer is the p-type conductor PEDOT:PSS, which has high electrical conductivity, excellent ambient s
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