Prof Graeme Clark changed the way we thought about hearing when he gave Rod Saunders the first cochlear implant in 1978—now he might just do it again.
3-D reconstruction of the left implanted cochlea in the brain of Rod Saunders. Credit: G. Clark; J.C.M. Clark.; M. Clarke; P. Nielsen- NICTA & Dept Otolaryngology, Melbourne University
Back then, Graeme brought together a team of engineers and medical personnel; now he’s trying to reveal exactly how the brain is wired for sound—by bringing together software specialists and experts on materials that can interface with the brain.
“We’re aiming to get closer to ‘high fidelity’ hearing for those with a cochlear implant,” says Graeme, now distinguished researcher at NICTA and laureate professor emeritus at the University of Melbourne. “This would mean they could enjoy the subtlety of music or the quiet hum of a dinner party.”
Each year we identify early-career scientists with a discovery and bring them to Melbourne for a communication boot camp. Here are some of their stories.
Jacek Jasieniak sprinkling quantum dots. Credit: Jacek Jasieniak
Imagine printing your own room lighting, lasers, or solar cells from inks you buy at the local newsagent. Jacek Jasieniak and colleagues at CSIRO, the University of Melbourne and the University of Padua in Italy, have developed liquid inks based on quantum dots that can be used to print such devices and in the first demonstration of their technology have produced tiny lasers. Quantum dots are made of semiconductor material grown as nanometre-sized crystals, around a millionth of a millimetre in diameter. The laser colour they produce can be selectively tuned by varying their size.
Colin Scholes operates a test rig for his carbon capture membrane. Credit: CO2 CRC
High tech cling wraps that ‘sieve out’ carbon dioxide from waste gases can help save the world, says Melbourne University chemical engineer, Colin Scholes who developed the technology. The membranes can be fitted to existing chimneys where they capture CO2 for removal and storage. Not only are the new membranes efficient, they are also relatively cheap to produce. They are already being tested on brown coal power stations in Victoria’s La Trobe Valley, Colin says. “We are hoping these membranes will cut emissions from power stations by up to 90 per cent.”
An example of the microchip that will be inserted into retinas to help restore sight. Credit: NICTA
Melbourne scientists gave Australia the first practical bionic ear. Today, over 180,000 people hear with the help of the cochlear implant.
Now, The University of Melbourne is a key member in an Australian consortium developing an advanced bionic eye that will restore vision to people with severe vision loss. This device will enable unprecedented high resolution images to be seen by thousands of people with severely diminished sight, allowing them to read large print and recognise faces.
