(Press-News.org) MINNEAPOLIS / ST. PAUL (07/18/2025) — Research from the University of Minnesota Twin Cities gives new insight into a material that could make computer memory faster and more energy-efficient.
The study was recently published in Advanced Materials, a peer-reviewed scientific journal. The researchers also have a patent on the technology.
As technology continues to grow, so does the demand for emerging memory technology. Researchers are looking for alternatives and complements to existing memory solutions that can perform at high levels with low energy consumption to increase the functionality of everyday technology.
In this new research, the team demonstrated a more efficient way to control magnetization in tiny electronic devices using a material called Ni₄W–a combination of nickel and tungsten. The team found that this low-symmetry material produces powerful spin-orbit torque (SOT)—a key mechanism for manipulating magnetism in next-generation memory and logic technologies.
“Ni₄W reduces power usage for writing data, potentially cutting energy use in electronics significantly,” said Jian-Ping Wang, a senior author on the paper and a Distinguished McKnight Professor and Robert F. Hartmann Chair in the Department of Electrical and Computer Engineering (ECE) at the University of Minnesota Twin Cities.
This technology could help reduce the electricity consumption of devices like smartphones and data centers making future electronics both smarter and more sustainable.
“Unlike conventional materials, Ni₄W can generate spin currents in multiple directions, enabling ‘field-free’ switching of magnetic states without the need for external magnetic fields. We observed high SOT efficiency with multi-direction in Ni₄W both on its own and when layered with tungsten, pointing to its strong potential for use in low-power, high-speed spintronic devices.” said Yifei Yang, a fifth-year Ph.D. student in Wang’s group and a co-first author on the paper.
Ni₄W is made from common metals and can be manufactured using standard industrial processes. The low-cost material makes it very attractive to industry partners and soon could be implemented into technology we use everyday like smart watches, phones, and more.
“We are very excited to see that our calculations confirmed the choice of the material and the SOT experimental observation,” said Seungjun Lee, a postdoctoral fellow in ECE and the co-first author on the paper.
The next steps are to grow these materials into a device that is even smaller from their previous work.
In addition to Wang, Yang and Lee, the ECE team included Paul Palmberg Professor Tony Low, another senior author on the paper, Yu-Chia Chen, Qi Jia, Brahmudutta Dixit, Duarte Sousa, Yihong Fan, Yu-Han Huang, Deyuan Lyu and Onri Jay Benally. This work was done with Michael Odlyzko, Javier Garcia-Barriocanal, Guichuan Yu and Greg Haugstad from the University of Minnesota Characterization Facility, along with Zach Cresswell and Shuang Liang from the Department of Chemical Engineering and Materials Science.
This work was supported by SMART (Spintronic Materials for Advanced InforRmation Technologies), a world-leading research center that brings together experts from across the nation to develop technologies for spin-based computing and memory systems. SMART was one of the seven centers of nCORE, a Semiconductor Research Corporation program sponsored by the National Institute of Standards and Technology. This work is being supported by the Global Research Collaboration Logic and Memory program. This study was done in collaboration with the University of Minnesota Characterization Facility and the Minnesota Nano Center.
Read the full paper entitled, “Large Spin-Orbit Torque with Multi-Directional Spin Components in Ni4W,” go to the Advanced Materials website.
END
Researchers demonstrate a new material to reduce power consumption of electronics
The team demonstrated a way to generate spin currents to control magnetization in electronic devices using low-cost materials
2025-07-18
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[Press-News.org] Researchers demonstrate a new material to reduce power consumption of electronicsThe team demonstrated a way to generate spin currents to control magnetization in electronic devices using low-cost materials