News 2016

Prof. Justin Holmes Powers Up New Chip

22 Aug 2016
Prof. Justin Holmes and his research group.

The silicon chip — the tiny synthetic “brain” inside smartphones, laptops and electronic devices — could eventually be replaced by a material made in Cork.

The substance, a mixture of tin and germanium, should allow faster, less power-sapping electronic devices. In the short term it could be used to make “wearable” solar cells to power phones or tablets. The innovation has been announced by Professor Justin Holmes, a scientific investigator at the Advanced Materials and BioEngineering Research Centre and professor of nanochemistry at University College Cork. The tin-germanium mixture has been used by Holmes and his team to make tiny electricity-conducting wires, called nanowires. These control the electrical flow in devices, as silicon does, but use less power.

Low-power electronics could mean that mobile phones need to be charged less often, Holmes said, and could open the way for solar-powered mobile phones. “Improved power efficiency means increased battery life for mobile devices, which ultimately leads to lower greenhouse gas emissions,” he said. “The charging of mobile electronic devices currently accounts for 15% of all household electricity consumption.” This research has been funded jointly by Science Foundation Ireland, a government body that uses public money to support research, and IQE, a British company that produces materials for mobile phones and other electronic products.

The creation could challenge the dominance of silicon chips. Silicon, a component of sand, is a cheap and abundant material. Because of its ubiquity and its power to control electricity, it was used in the first chip made at the Texas Instruments lab in 1958. As computers’ processing speeds have increased, manufacturers have packed more transistors onto every chip. Intel’s 4004 chip, made in 1971, had 2,300 transistors, while a chip the company makes now has 7.2bn.

The technical problem with having billions of transistors in a single silicon switch is that the amount of heat generated has shortened battery life and can lead to overheating. This prompted scientists including Holmes to look at different materials that could be used in chips. IQE said it hopes the Irish-made material will make silicon chips faster and reduce their power consumption. “The ability to increase the speed and number of devices on a chip by reducing size is coming to an end. Novel ideas such as nanowires will allow the microelectronics revolution to continue,” it said.

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