Magnetic Quantum Material Paves Way Sustainable Computers: The discovery of new quantum materials with magnetic properties are believed to pave the way for ultra-fast and considerably more energy efficient computers and mobile devices. So far, these types of materials have been shown to work only in extremely cold temperatures. Now, a research team at Chalmers University of Technology in Sweden are the first to make a device made of a two-dimensional magnetic material work in at room temperature.
Today’s rapid IT expansion generates enormous amounts of digital data that needs to be stored, processed, and communicated. This comes with an ever-increasing need for energy – projected to consume over 30 percent of the world’s total energy consumption by 2050. To combat the problem, the research community has entered a new paradigm in materials science. The research and development of two-dimensional quantum materials that form in sheets and are only a few atoms thick have opened new doors for sustainable, faster and more energy-efficient data storage and processing in computers and mobiles.
The first atomically thin material to be isolated in a laboratory was graphene, a single atom-thick plane of graphite, that resulted in the 2010 Nobel Prize in Physics. And in 2017, two-dimensional materials with magnetic properties were discovered for the first time. Magnets play a fundamental role in our everyday lives, from sensors in our cars and home appliances to computer data storage and memory technologies, and the discovery opened for new and more sustainable solutions for a wide range of technology devices.
The first to demonstrate 2D magnet-based devices at room-temperature
Magnetic Quantum Material Paves Way Sustainable Computers: So far researchers have only been able to demonstrate two-dimensional magnets in extremely cold temperatures in laboratory environments, so called cryogenic temperatures, inhibiting their broader applications in society. But now a group of researchers at Chalmers University of Technology have been able to demonstrate, for the very first time, a new two-dimensional magnetic material-based device at room temperature. They used an iron-based alloy (Fe5GeTe2) with graphene which can be used as a source and detector for spin polarized electrons*. And the breakthrough is now believed to enable a range of technical applications in several industries as well as in our everyday lives.
The demonstration is described in the study “Room Temperature Spin-Valve with van der Waals Ferromagnet Fe5GeTe2/Graphene Heterostructure” published in the scientific journal Advanced Materials. The authors of the study are Bing Zhao, Roselle Ngaloy, Sukanya Ghosh, Soheil Ershadrad, Rahul Gupta, Khadiza Ali, Anamul Md. Hoque, Bogdan Karpiak, Dmitrii Khokhriakov, Craig Polley, Balasubramanian Thiagarajan, Alexei Kalaboukhov, Peter Svedlindh, Biplab Sanyal and Saroj P. Dash.
The researchers are active at Chalmers University of Technology, Uppsala University and Max-IV laboratory at Lund University.
*Conventional electronic logic devices are based on nonmagnetic semiconductors and use the flow of electric charges to achieve information processing and communication. Spintronic devices, on the other hand, exploit the spin of electrons to generate and control spin currents, and to interconvert electrical and magnetic signals. By combining processing, storage, sensing, and logic within a single integrated platform, spintronics could complement and, in some cases, outperform semiconductor-based electronics, offering advantages in terms of scaling, power consumption, and data processing speed.
The project was financed by: European Union Graphene Flagship, Swedish Research Council, 2DTECH Vinnova Competence center, Wallenberg initiative on Materials Science for a Sustainable World (WISE), and European Union FLAG-ERA projects.
Magnetic Quantum Material Paves Way Sustainable Computers: Original Article
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