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February 22, 2021 | Audrey-Maude Vézina
Update : February 22, 2021
The team of Professor Dongling Ma from the Institut national de la recherche scientifique (INRS) developed a new approach for foldable and solid devices.
Solid and flexible electrochromic (EC) devices, such as smart windows, wearable electronics, foldable displays, and smartphones, are of great interest in research. This importance is due to their unique property: the colour or opacity of the material changes when a voltage is applied.
Traditionally, electrochromic devices use indium tin oxide (ITO) electrodes. However, the inflexibility of metal oxide and the leakage issue of liquid electrolyte affect the performance and lifetime of EC devices. ITO is also brittle, which is incompatible with flexible substrates.
Furthermore, there are concerns about the scarcity and cost of indium, a rare element, which raises a question on its long-term sustainability. The fabrication process for the highest quality ITO electrodes is expensive. “With all these limitations, the need for ITO-free optoelectronic devices are considerably high. We were able to achieve such a goal,” says Dongling Ma who led the study recently published in the journal Advanced Functional Materials.
Indeed, the team has developed a new approach with a cost-effective and easy electrode fabrication that is completely ITO-free. “We reached high stability and flexibility of transparent conductive electrodes (TEC), even in a harsh environment, such as oxidizing solution of H2O2” she adds. They are the first to apply stable nanowires-based TCEs in flexible EC devices, using silver nanowires coated with a compact gold shell.
Now that they have a proof of concept, the researchers want to scale up the synthesis of TEC and make the nanowires fabrication process even more cost-effective, while maintaining high device performance.
The article “Highly Stable Ag–Au Core–Shell Nanowire Network for ITO‐Free Flexible Organic Electrochromic Device”, by Shengyun Huang, Yannan Liu, Maziar Jafari, Mohamed Siaj, Haining Wang, Shuyong Xiao and Dongling Ma, was published in the journal Advanced Functional Materials. The study received financial support from the Natural Sciences and Engineering Research Council of Canada (NSERC), the Fonds de recherche du Québec- Nature et technologies (FRQNT) and the Quebec Centre for Advanced Materials.