New graphene based inks for high-speed manufacturing of printed electronics
Duration: 1 min 7 secs
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About this item
| Description: | A low-cost, high-speed method for printing electronics using graphene and other conductive materials could open up a wide range of commercial applications. |
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| Created: | 2015-10-19 14:25 | ||||||
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| Collection: | Electrical Engineering Division | ||||||
| Publisher: | University of Cambridge | ||||||
| Copyright: | Dr Tawfique Hasan | ||||||
| Language: | eng (English) | ||||||
| Keywords: | Graphene; Flexographic Printing; Printed Electronics; Graphene Ink; Functional Ink; | ||||||
| Credits: |
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| Abstract: | A low-cost, high-speed method for printing graphene inks using a conventional roll-to-roll printing process, like that used to print newspapers and crisp packets, could open up a wide range of practical applications, including inexpensive printed electronics, intelligent packaging and disposable sensors in near future. |
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Transcript
Transcript:
Researchers from Cambridge University, working with technology company Novalia, have developed a low-cost, water based and electrically conductive ink containing graphene, a form of carbon with many remarkable properties.
The ink can be printed onto flexible materials including paper and plastic, working at speeds of up to 100m/minute with a standard commercial press more typically used to print packaging materials such as bottle labels. This is the first time graphene has been used for such a high speed and inexpensive printing technology.
After printing, the prototype touch-pad devices on paper are cut from the reel. They require no specialist handling.
A simple circuit board is then attached to the print, which will be used to detect touch.
The researchers foresee applications for the ink ranging from large-scale manufacture of disposable biosensors and energy harvesters to smart packaging.
The ink can be printed onto flexible materials including paper and plastic, working at speeds of up to 100m/minute with a standard commercial press more typically used to print packaging materials such as bottle labels. This is the first time graphene has been used for such a high speed and inexpensive printing technology.
After printing, the prototype touch-pad devices on paper are cut from the reel. They require no specialist handling.
A simple circuit board is then attached to the print, which will be used to detect touch.
The researchers foresee applications for the ink ranging from large-scale manufacture of disposable biosensors and energy harvesters to smart packaging.
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