Stretchy Silver Nanowires Key to Next Generation of Flexible Devices

A new use of silver at the nanoscale could be the key to developing stretchable electronics such as smartphones, tablets, and other electronic devices.

A new use of silver at the nanoscale could be the key to developing stretchable electronics such as smartphones, tablets, and other electronic devices.

Researchers at the University of Vermont have discovered that working with silver at the nanoscale allows them to create nanowires that have significant strength and the ability to stretch.

Frederic Sansoz, a professor of mechanical engineering at the university, said he and his research team have been working with gold nanowires for several years, when they became interested in working with other metals with a similar structure and mechanical behavior to expand their work.

When the team focused on silver, they realized that nanowires made from this material reacted differently than those made of platinum, another metal with which they were experimenting. “Silver nanowires were superplastic without breaking, while platinum nanowires were quasi-brittle during elongation at room temperature,” he told Design News in an interview.

Researchers realized that silver nanowires had a number of benefits in addition to their noted flexibility, Sansoz said. They had both thermal and electrical conductive properties, allowing them to be used as conductive electrode materials, he said. They also showed other characteristics that made them suitable for the next generation of flexible electronics.


silver stretch nanoscale
University of Vermont Professor of Mechanical Engineering Frederic Sansoz shows how atoms of silver are arranged. He’s part of a team of scientists that has discovered that silver wires between about 10 and 40 nanometers wide have an unique combination of super-strength and stretchiness. The new research has applications for a number of technologies. (Photo: Joshua Brown/University of Vermont)


“Their tensile strength during deformation is extremely high, too, more than 50 times higher than that of their bulk counterpart, because of the classic ‘smaller is stronger’ trend,” Sansoz said. “Furthermore, silver nanowire network films have proved to be transparent and very flexible, which is of particular interest for new flexible, stretchable, and organic electronics applications.”

Indeed, this kind of silver wire could be fashioned into a mesh that conducts current, allows light to shine through, and can bend extremely easily, making it well-suited as the material for electrodes in next-generation electronics, he said.

“Silver nanowire network films … 10 nanometers to 50 nanometers in diameter, should possess ultra-high strength, while being conductive, flexible, and transparent,” Sansoz explained. “This enables replacing the current conductive material that make the electrode in smartphone and touchscreen displays -- brittle ITO (indium tin oxide) ceramic materials -- by flexible transparent metallic films with ultra-high resistance to breaking during deformation.”

Researchers published a paper about their work in the journal Nature Materials . In the article, they show also that silver nanowires can have self-healing capability through a coupling mechanism between crystal slip and surface diffusion that can heal surface defects created by deformation, he said. “This self-healing mechanism is totally new and unique to silver nanowires in the 10-nanometer to 50-nanometer diameter range,” Sansoz said.

With silver-nanowire synthesis already well-established, a number of companies already are selling them online in bulk amount, he added, making their use in commercial applications an imminent reality.

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