Broad colour palette electrochromic polymers sunglasses, windows

Broad colour palette of electrochromic polymers for sunglasses, windows

5:09 AM, 10th February 2015
Broad colour palette of electrochromic polymers for sunglasses, windows
Samples show some of the colours researchers have produced in electrochromic polymers. The materials can be used for applications such as sunglasses and window tinting that can be turned on and off through the application of an electrical potential.

GEORGIA, US: Artists, print designers and interior decorators have long had access to a broad palette of paint and ink colours for their work. Now, researchers have created a broad colour palette of electrochromic polymers, materials that can be used for sunglasses, window tinting and other applications that rely on electrical current to produce colour changes.

By developing electrochromic polymer materials in a range of primary and secondary colours and combining them in specific blends, the researchers have covered the colour spectrum – even creating four shades of brown, a particularly difficult colour combination. The materials could be used to make sunglasses that change from tinted to clear in a matter of seconds, at the press of a button. Other uses could include window tinting, signage and even greeting cards that change colour through the application of low-voltage electrical current.

Supported by BASF, the research is reported in the journal ACS Applied Materials & Interfaces. The research was done in the laboratory of John Reynolds, a professor in the School of Chemistry and Biochemisty and the School of Materials Science and Engineering at the Georgia Institute of Technology.

“We’ve demonstrated the ability to create virtually any colour we want by mixing different electrochromic polymers, just like mixing paint. Using a simple coating method or even inkjet printing, we can create films that change colour with the application of a voltage,” said Anna Osterholm, Research Scientist, Georgia Tech’s School of Chemistry and Biochemistry and the paper’s first author.

The many colours that have been developed by Reynolds’ group over the years include magenta, cyan, yellow, orange, blue and green polymers that can be dissolved in common solvents. In addition, blends of these polymer solutions can be predictably mixed to target specific colours.

To demonstrate the capabilities, the researchers created brown lenses for sunglasses using a five-layer sandwich of materials, including a film of the electrochromic material, a charge storage layer and a UV-curable electrolyte, with a cathode and anode layer on either side.

The lenses can be switched between a coloured and colourless state by applying a brief pulse of electrical current and do not need a continuous power supply. To maintain the colourless state, a brief refresh pulse needs to be applied approximately every 30 minutes; however, the coloured state can be stable for up to several days. The materials can switch from about 10 per cent transmittance to 70 per cent transmittance – and back – in a few seconds.

The brown shades are created by combining cyan and yellow primary colours with orange and periwinkle-blue secondary colours.

Photochromic sunglasses, which darken in response to light using a silver halide reaction, are already on the market. But many of these lenses respond to ultraviolet wavelengths that are filtered out by automobile windshields, require several minutes to transition – and can’t be controlled by users. The passive switching time can be problematic for pilots, drivers, security officers or others who move quickly between light and dark environments.

“In contrast, by using electrochromic polymers, we can create devices that by pushing a button, can be converted from dark to clear. They are completely user-controlled, and it doesn’t matter whether they are being used indoors or outdoors, in a vehicle or an aircraft,” said Osterholm.

The electrochromic materials rely on a reduction-oxidation (redox) reaction triggered by the application of an electrical potential provided by a simple coin battery: a positive one volt causes the glasses to be clear, while a minus one volt switches to the colour. “Essentially, we are just charging and discharging the device, which is what causes the colour change,” explained Eric Shen, a postdoctoral fellow in the Georgia Tech School of Chemistry and Biochemistry.

The electrochromic materials represent years of work by the Reynolds Laboratory to synthesize polymers whose repeat-unit structures provide the desired palette of colours. Because they can be dissolved in the same solvents, additional colours can be created by combining specific quantities of the primary and secondary colours.

“Anything that you would want to have change colour at the push of a button would be an application for these. We have shown that we can switch them on and off thousands of times, and that we can shine strong light on them without causing degradation of the colour,” said Shen.

The researchers have used simple spray and blade-coating techniques to create films of the colourful materials. They now are using ink-jet printing to create patterns and mix the polymers to create colours.

“The ink-jetting is very versatile when you want to make patterns or very fine features with these materials. The fact that the polymers are so soluble makes it quite easy to process them using anything that would spread an ink,” said Shen.


© Georgia Institute of Technology News



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