Single-Electrode Material Streamlines Functions Into a Tiny Chip
July 29, 2019 | KAUSTEstimated reading time: 1 minute
The ability to combine many functions into a single microchip is a significant advance in the quest to perfect the tiny, self-powered sensors that will expand the Internet of things. KAUST researchers have managed to combine sensing, energy-harvesting, current-rectifying and energy-storage functions into a single microchip.
"Previously, researchers had to use bulky rectifiers that converted intermittent harvested electrical energy into steady direct current for storage in electrochemical microsupercapacitors," says Mrinal K. Hota, research scientist at KAUST and lead author of the study.
Hota explains that the key to integrating everything into a single chip was the development of ruthenium oxide (RuO2) as the common electrode material connecting all devices in the microcircuits. The team envisages a broad range of applications from monitoring personal health indications directly from the human body to environmental and industrial sensing.
"Our achievement simplifies device fabrication and realizes significant miniaturization of self-powered sensor devices," says project leader Husam Alshareef.
The ruthenium-oxide contacts are laid onto a glass or silicon substrate to connect sensing, energy-harvesting and current-rectifying electronics with one or more electrochemical microsupercapacitors that store the electrical energy. This creates a tiny system that can operate without any battery power. Instead it uses available body movement or machinery vibrations as the reliable and continual source of energy.
"Unlike a battery, electrochemical microsupercapacitors can last for hundreds of thousands of cycles rather than just a few thousand," Hota points out. They can also deliver a significantly higher power output from a given volume.
A key to creating electrode material suitable for connecting all devices was to make optimal ruthenium-dioxide surfaces with controlled roughness, defects and conductivity. These features enabled the team to use RuO2 for both electronics and electrochemical microsupercapacitors.
Another crucial innovation was to use a gel that, after application, solidifies into the supercapacitors' electrolyte. This is a material that transports electric charge in the form of ions. The solidified gel was chosen to avoid any damage to rectifiers and thin-film transistors.
The researchers now plan to work to optimize the RuO2 electrodes further and explore linking many different types of sensors into their chips. They also want to investigate adding wireless communication into the device. This would allow biosensors and environmental sensors to send data remotely to any wireless receivers, including mobile phones and personal computers.
Suggested Items
Amphenol Corporation Releases 2023 Sustainability Report
04/23/2024 | Amphenol CorporationAmphenol Corporation released its 2023 Sustainability Report.
Foxconn Pledges 100% Renewable Electricity by 2040, Joins RE100
04/22/2024 | FoxconnHon Hai Technology Group announced its worldwide operations will run fully on green electricity by 2040 and has joined the global initiative RE100, in a milestone on Earth Day 2024 that adds the world’s largest electronics manufacturer and technology solution provider among the most influential businesses committed to 100% renewable electricity.
Altus Group Helps BitBox Unlock Productivity and Efficiency Gains with New Reflow Oven
04/22/2024 | Altus GroupAltus Group, a leading provider of capital equipment, has recently assisted BitBox, a UK-based electronics design, engineering and manufacturing company in upgrading its operations with the implementation of a new reflow oven from Heller Industries.
Digitalisation and ESG
04/19/2024 | Marina Hornasek-Metzl, AT&SDigitalisation and ESG are prominent and high-priority topics in the global business community. The first focuses on applying technology throughout the value chain to produce faster, smarter, and more desirable business outcomes. The latter emphasises the broader value a business is expected to create for its stakeholders from an environmental, social, and governance perspective.
Revolutionizing Sustainable Energy: Georgia Solar Companies Partner with Georgia Power to Unveil New Parking Deck Solar Array
04/19/2024 | BUSINESS WIREThree Georgia-based solar companies have joined together to design, build and construct an innovative solar array atop the parking deck at Georgia Power’s headquarters in Atlanta, Georgia.