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In a groundbreaking development at the forefront of molecular magnetism, researchers have synthesized a novel three-dimensional molecular framework, Cr(pyrazine)₃, that exhibits an...
A new paper describes a molecular material that combines a stable internal magnetic structure with almost no external magnetic field. This could prove relevant for energy efficient...
In a groundbreaking advance in the understanding of magnetic materials, researchers have unveiled a transformative framework that redefines how magnetic orders are classified by in...
New nitride materials could let electricity control hidden magnetic spin patterns, pointing toward faster and more stable future electronics.
A redesigned crystal structure unlocks rare magnetic and electric behaviour, hinting at alternative computing approaches beyond traditional silicon-based energy limitations. Resea...
Nanoscale Horiz., 2026, Accepted ManuscriptDOI: 10.1039/D5NH00644A, Review ArticleHao Wu, Li Yang, Gaojie Zhang, Wen Jin, Jie Yu, Bichen Xiao, Wenfeng Zhang, Haixin ChangThe anomal...
Antiferromagnetism is caused by excess iron The post Stoichiometric iron telluride is a superconductor: magnetic mystery is solved appeared first on Physics World.
Researchers develop a new computational model that helps identify origin of complex magnetization reversal in soft magnets.
Nature Nanotechnology, Published online: 15 April 2026; doi:10.1038/s41565-026-02139-8Hybrid antiferroelectric–ferroelectric domains and domain walls in K3[Nb3O6(BO3)2] are reporte...
Physicists have experimentally demonstrated an exotic form of magnetism in a metal that could be useful for realizing future data-storage devices.
Nature Nanotechnology, Published online: 15 April 2026; doi:10.1038/s41565-026-02159-4Nanoscale RuO2 thin films exhibit giant third-order longitudinal electrical transport and Hall...
Lattice symmetry directly shapes topological spin structures in two-dimensional van der Waals magnets, a role typically attributed to interfacial interactions.
Nature Nanotechnology, Published online: 14 May 2026; doi:10.1038/s41565-026-02169-2Nonlinear electrical responses reveal quantum geometry and signatures of altermagnetism in ruthe...
Topological surface states are found to mediate a strong, non‑oscillatory interaction that aligns magnetic moments and enhances ferromagnetic order The post How topological surface...
On the Possibility of Piezoelectric Nanocomposites without using Piezoelectric Materials research Nikhil Sharma Sun, 05/20/2007 - 01:48 ho...
Nanoscale Horiz., 2026, Accepted ManuscriptDOI: 10.1039/D6NH00035E, Communication Open Access &nbsp This article is licensed under a Creative Commons Attribution-NonCommercial...
A mysterious magnetic material once thought to host an exotic “quantum spin liquid” has turned out to be something entirely different—and possibly just as intriguing. Scientists st...
In a groundbreaking exploration into the magnetic properties of lanthanide complexes, Sun, Hinz, Maier, and colleagues have unveiled a fascinating divergence in the single-molecule...
A review paper presents an integrated AFM framework for observing, manipulating, and engineering ferroelectric materials at the nanoscale for semiconductor applications.
Author(s): David EhrensteinAccording to theory, a property called altermagnetism can be acquired by a nonmagnetic material that is adjacent to an altermagnet.[Physics 19, s64] Publ...
Light-switchable molecules could tune spin-wave filters in 2D magnets, offering a chemical route to reprogrammable nanoscale magnetic circuits.
Atomic moire ferroelectrics reveal unusual polarization effects, offering new routes to low energy nanoelectronics, photonics, and advanced memory devices.
Short current pulses can switch magnetization in thin films via spin orbit torque, enabling controllable skyrmion motion for future data technologies.
Researchers from the University of Ottawa and MIT have published a comprehensive roadmap in Newton detailing the potential of “magnetic topological materials.” These materials repr...
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