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Posted on May 21, 2018

Battery-in-screen paves way to ultra-thin smartphones

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Scientists in Hong Kong and China have combined a semi-transparent arrangement of anodes and cathodes with a transparent electrolyte to make the first ever photoluminescent microbattery that can simultaneously act as a power supply and a full-colour display. For more information see the IDTechEx reports on flexible, printed and thin film batteries and quantum dots.
 
The microbattery, developed by Chunyi Zhi from the City University of Hong Kong and his colleagues, works just like a conventional alkaline battery - redox reactions happen at the positive and negative electrodes, and ions diffuse through an electrolyte to provide electrical energy. Zhi's microbattery, however, is a flat, sandwich-like arrangement of positive and negative electrodes, deposited on a transparent polymer surface with a transparent electrolyte filling.
Made of a mixture of gelatin and fluorescent quantum dots, the light-permeable electrolyte acts as a colour filter, one of the three key components of an LCD screen. 'The fluorescent components emit fluorescence under UV irradiation, and the resulting light passes through the transparent electrolyte,' comments Jian Lin, an energy storage and electronics expert at the University of Missouri, US. 'By changing the fluorescent components, the battery can emit red, green and blue light. With the three primary colours of light, the microbatteries serve as a colour filter, realising the concept of a battery in a screen', he adds.
 
Combined with an ultra-thin array of zinc anodes and manganese oxide cathodes, which are common battery components, the fluorescent microbatteries boast an exceptionally high energy density and could be cheap to produce on a commercial scale.
'Our microbatteries deliver almost the highest energy density among micro-sized energy storage devices, and the highest energy density based on the whole microbattery volume,' Zhi says.
 
'It is far from commercialisation, but this novel concept will inspire more work on integrating electronic functions into one component for ultra-compact electronic devices,' comments Lin.
 
Transparent Conductive Films and Materials 2018
Phone batteries are usually just less than 1cm thick. Zhi acknowledges that there is more work to do, but says 'If the energy storage performance can reach the level of current batteries, the thickness of the battery and screen could be 90% thinner, leading to a whole new design of phones.'
 
Source and images: Royal Society of Chemistry
Top image: Chunyi Zhi, City University of Hong Kong
Learn more at the next leading events on the topic:
or Printed Electronics USA 2018 External Link on 14 - 15 Nov 2018 at Santa Clara Convention Center, CA, USA
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