Arthur Hanson
Well-known member
Any thoughts or observations on this new material to improve memory appreciated, Thanks.
Scientists discover Ni₄W, a low-cost alloy that boosts memory efficiency and cuts power use in future electronic devices.
New research on Ni₄W offers faster, energy-saving spintronic memory for future electronics. (CREDIT: University of Minnesota Twin Cities)
In a world where electronic devices continue to shrink and demands for faster, more energy-efficient memory increase, scientists have uncovered a promising material that could reshape the future of technology.
Researchers at the University of Minnesota Twin Cities have found a new way to control magnetization in electronic memory using a metal alloy called nickel-tungsten (Ni₄W). This material not only improves efficiency but also offers a path to more sustainable electronics.
The research, published in the journal Advanced Materials, shows how Ni₄W can outperform many current materials used in spintronics—a field of electronics that uses the spin of electrons, rather than just their charge, to store and process information. The results could bring significant improvements to devices like smartphones, smartwatches, and data centers.
www.thebrighterside.news
Scientists discover Ni₄W, a low-cost alloy that boosts memory efficiency and cuts power use in future electronic devices.

New research on Ni₄W offers faster, energy-saving spintronic memory for future electronics. (CREDIT: University of Minnesota Twin Cities)
In a world where electronic devices continue to shrink and demands for faster, more energy-efficient memory increase, scientists have uncovered a promising material that could reshape the future of technology.
Researchers at the University of Minnesota Twin Cities have found a new way to control magnetization in electronic memory using a metal alloy called nickel-tungsten (Ni₄W). This material not only improves efficiency but also offers a path to more sustainable electronics.
The research, published in the journal Advanced Materials, shows how Ni₄W can outperform many current materials used in spintronics—a field of electronics that uses the spin of electrons, rather than just their charge, to store and process information. The results could bring significant improvements to devices like smartphones, smartwatches, and data centers.

New Nickel-Tungsten Alloy Powers Greener, Faster Memory Chips
Scientists discover Ni₄W, a low-cost alloy that boosts memory efficiency and cuts power use in future electronic devices.
