A strange chalice made its way into the British Museum’s collection in the 1950s. It is a 1,600-year-old jade green Roman artifact called the Lycurgus Cup. The image on the chalice is an iconic scene with King Lycurgus of Thrace, but the element that sets this cup apart is the effect light has on it. If the cup is lit from the front it is jade green, but when it is lit from behind it glows blood red. At the time scientists were baffled by this stunning feature, they could not figure out how the Romans managed it – now we know.
The answer finally came to light in 1990. Researchers in England examined broken fragments of the glass under a microscope and discovered that the Roman artisan who made the chalice was a pioneer in nanotechnology. Teeny tiny particles of silver and gold were added to the glass – particles so small they were just 50 nanometers in diameter. That means these elements were less than one-thousandth the size of a grain of table salt.
You may scoff at the idea Romans planned for such a thing – but the work was precise and there is no way the effect happened by accident. The gold and silver particle mixture used in the chalice’s creation shows that ancient Romans had mastered some control over nanoparticles. Light makes the metal flecks in the glass vibrate in ways that change the chalice’s color depending on the view you have of the artifact. Archaeologist Ian Freestone of University College London applauded the Romans’ achievement as “an amazing feat.”
Although the Romans used the technology as decoration, nanotechnology is being applied to other areas of life today. For example, it is used in diagnosing disease and detecting biohazards at security checkpoints. These days, scientists and engineers have noted that nanotechnology has an untapped potential. An engineer at the University of Illinois at Urbana-Champaign named Gang Logan Liu worked with colleagues to conduct a study on the reaction of gold and silver nanoparticles with a variety of solutions.
They filled a plastic plate with nanoparticles of the two metals in a combination similar to what is seen in the Lycurgus Cup. Then the researchers mixed the particles with water, oil, sugar, or salt. Their results showed different color changes depending on which of the substances was mixed in. More exciting, they found that the prototype they created was 100 times more sensitive to salt levels than commercial sensors are today. The options are endless. Who knows? Maybe one day this prototype will be used in a handheld device to detect pathogens in saliva or urine samples. It may also have applications in helping security officials keep dangerous liquids off airplanes.
As you see, the Romans were far more advanced in some areas than most people would give them credit for. And the use of nanotechnology isn’t the only thing they have been able to beat us at. For example, scientists have discovered 2,000 year old Roman concrete under the waves of the Mediterranean Sea is superior to concrete available nowadays. Roman concrete surpasses the modern counterpart in durability and it is more environmentally friendly too. It seems that examining ancient technology may be the key to making the next big discovery!