Technology

Brainwave puts scientists step closer to building bionic brain

It's been the stuff of science fiction since it was deemed theoretically possible in the 1970s. But Sharath Sriram and his research team at RMIT have finally cracked it. They have built an artificial memory cell that could one day function as the grey matter in a bionic brain.

Capable of mimicking the human brain and the way it stores information over the long term, the brain-like system can also "learn", simultaneously process and store multiple strands of information and is quick to retrieve information.

Associate Professor Sharath Sriram, pictured with an optical chip, must wear a protective suit when working in the lab.
Associate Professor Sharath Sriram, pictured with an optical chip, must wear a protective suit when working in the lab. Photo: RMIT

At its most advanced application, the tiny cell could replace humans in medical trials because the bionic brain could be "programmed" to contain flaws such as dementia, allowing new medications to be tested.

More immediately, the memory cell can be used to create smarter computers, USB sticks with 16 times the capacity of existing memory sticks and self-drive vehicles capable of learning from their experiences on the roads.

"Our job is to make yesterday's science fiction today's reality," Associate Professor Sriram said. "We sometimes joke that this is the start of the Skynet chip, like in the Terminator films, when electronics start thinking for themselves."

Though called an artificial memory cell, the materials it is made of are naturally occurring. The key ingredient is strontium titanate, a stable, robust material that operates as an insulator.

Advertisement

As a nano-devices researcher, Professor Sriram is interested in what happens to materials when they are scaled down and their behaviour changes.

In the case of strontium titanate, he and his team managed to control the oxygen content to enable it to store information, the way grey matter stores information in the brain.

Professor Sriram has won a ''science Oscar' as an emerging leader'.
Professor Sriram has won a ''science Oscar' as an emerging leader'. Photo: Wayne Taylor

The memory cell is minuscule: between a few micrometres and four to five nanometres.

Because of this, when Professor Sriram goes into the lab he is decked out in a white suit, complete with protective glasses, gloves, a face mask and shoe covers.

But unlike most scientists, "gowning up" isn't to protect him from the materials he is working with. Rather it's the other way around.

"One eyelash falling on a sample can destroy millions of these devices," he said.

For his trouble turning science fiction into science fact, Professor Sriram was on Wednesday night honoured with a "science Oscar" – the Australian Museum Eureka Prize for an emerging leader.

It's quite an achievement for a man who has only been in Australia for 12 years, during which time he has gained his PhD in electronic materials, built a research group from eight to 25 staff and now manages RMIT's micro-nano research facility, where he is the founding deputy director.

Also recognised at the ceremony at Sydney Town Hall on Wednesday night was Wollongong University's Professor Gordon Wallace, who received the Eureka Prize for leadership in innovation and science for his work with smart plastics, and the Murdoch Children's Research Institute's Melissa Little and Minoru Takasato, who were awarded the Eureka Prize for scientific research for their work recreating human kidney tissue using stem cells.

 
Advertisement