21st-century Alchemy: There's Gold in That Roll-up Screen

Thanks to a cheap and eco-friendly process developed in Israel, roll-up screens and the like on your next smart device could be made of self-assembling gold.

Andrew Tobin
Send in e-mailSend in e-mail
Google Glass is one of many devices Jelinek's technology could help produce.
Google Glass is one of many devices Jelinek's technology could help produce.Credit: Bloomberg
Andrew Tobin

The field of “flexible electronics” is reshaping our world, contributing to cutting-edge technologies like solar panels, “e-newspapers” and Google Glass. Whereas traditional electronics are locked in two dimensions, flexible ones venture into 3-D, bending the limits of what technology can do.

But flexible electronics still rely on old production methods and materials, which tend to be expensive and polluting. Now, Prof. Raz Jelinek of Ben-Gurion University has developed a simple process that uses gold to create flexible electronics much more cheaply and cleanly.

The findings, published in various journals in the past several months, could change the way flexible electronic devices – with circuits that can flex and bend – are manufactured.

“I found that a little-known molecule can be adapted to produce transparent gold patterns with nanoscale features,” said Jelinek, who led the study at Ben-Gurion’s Ilse Katz Institute for Nanoscale Science and Technology and Department of Chemistry. “The process doesn’t require multi-million-dollar machines or leave behind toxic chemicals, and it works on the flexible materials that are going into the latest smart devices.”

The research was partly funded by the Israeli taxpayer – through the Ministry of Science and the Economy Ministry’s Office of the Chief Scientist.

Touch screens by Mother Nature

Flexible electronics are a recent extension of conventional electronic technologies. Even more recently, nanotechnology has helped flexible electronics get smaller, suppler and, when necessary, transparent.

Among many other applications, flexible electronics with nano-sized features are important in electronic displays – like those in LCD TVs, e-readers and smartphones. Prototypes are in the works for rollable displays that will let you wad up your smartphone, stick a digital newspaper in your pocket or wrap a mini-computer around your wrist like a watch.

All these devices are currently made in “top-down” processes – which carve objects with nano-features out of larger materials. Adapted from the field of conventional electronics, the processes are well established and capable of mass production. But they require pricey machinery and materials and leave behind toxic byproducts that are bad for the environment.

In contrast, Jelinek’s gold-based process is “bottom-up,” meaning it builds objects with nano-features piece-by-piece. The process is natural and quite simple – a high school student could do it, says Jelinek. But it is also kind of magical, like a modern-day form of alchemy.

It works like this. Gold-containing molecules are dissolved in water to create a solution. Glass, plastic or polymer materials are then submerged in the solution. Wherever chemical structures called “amino groups” are present on the material – be it flat, curved or complex and 3-D – a nano-structured gold film begins to spontaneously crystalize. (A force akin to static electricity attracts and sticks the gold from the solution to amino groups.) Conveniently, amino groups naturally appear on many plastics or can be easily produced with very basic chemistry.

After a few hours or a couple days – depending on how thick you want the film to be – the material is removed from the solution, now coated with a gold film that follows whatever nano-pattern was formed by the amino groups. The gold film conducts electricity and is see-through, allowing it to act, for example, as a circuit in devices that convert light into electricity (such as solar panels) or vice versa (as in electronic displays).

A new ‘gold standard’?

Like traditional top-down processes, Jelinek’s gold-coating process works on metals, glasses, plastics and polymers used to make conventional 2-D electronic devices and circuits. But unlike traditional processes, it works just as well on wrinkled or bent surfaces, which are the bread and butter of flexible electronics. Significantly, Jelinek’s technology does not require sophisticated equipment, uses cheap materials and is eco-friendly.

Jelinek thinks the process could be relatively easily adapted for industrial production, bringing down the price and expanding the applications for flexible electronics. The biggest challenges are those at the heart of flexible electronics: transparency and flexibility. The gold film has an amber hue that leads to opaqueness when it gets too thick. And Jelinek has yet to make the film flexible enough to retain good conductivity after continuous bending. Here, though, the film’s tubular nanostructure is a promising advantage.

Scientists who are familiar with the electronics industry agree that Jelinek’s process has real potential. “Professor Jelinek’s technology combines low cost and high-performance,” said professor Zeev Zalevsky, the head of the electro-optics study program and the director of the Nano Photonics Center at the Institute of Nanotechnology & Advanced Materials, both at Bar-Ilan University. “In my opinion, the process he developed could be very useful in wide variety of commercial fields in the near future. The challenge for all nanotechnologies, of course, is to scale up.”

To this end, Jelinek is working with BG Negev, Ben-Gurion’s technology transfer company, which brings promising scientific innovations to market. In the meantime, he is trying to demonstrate the process’ versatility, by gold-coating different materials and creating more complicated electrical patterns and circuits.

Bent polymer coated by the new “bottom-up” gold technology, and made conductive.Credit: Raz Jelinek
Prof. Raz Jelinek, inventor of low-cost self-assembling gold circuitry.Credit: Raz Jelinek

Click the alert icon to follow topics:



Automatic approval of subscriber comments.
From $1 for the first month

Already signed up? LOG IN


Charles Lindbergh addressing an America First Committee rally on October 3, 1941.

Ken Burns’ Brilliant ‘The U.S. and the Holocaust’ Has Only One Problem

The projected rise in sea level on a beach in Haifa over the next 30 years.

Facing Rapid Rise in Sea Levels, Israel Could Lose Large Parts of Its Coastline by 2050

Tal Dilian.

As Israel Reins in Its Cyberarms Industry, an Ex-intel Officer Is Building a New Empire

Queen Elizabeth II, King Charles III and a British synagogue.

How the Queen’s Death Changes British Jewry’s Most Distinctive Prayer

Newly appointed Israeli ambassador to Chile, Gil Artzyeli, poses for a group picture alongside Rabbi Yonatan Szewkis, Chilean deputy Helia Molina and Gerardo Gorodischer, during a religious ceremony in a synagogue in Vina del Mar, Chile last week.

Chile Community Leaders 'Horrified' by Treatment of Israeli Envoy

Queen Elizabeth attends a ceremony at Windsor Castle, in June 2021.

Over 120 Countries, but Never Israel: Queen Elizabeth II's Unofficial Boycott