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Altermagnetic Metal-Organic Frameworks

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arxiv 2603.05112 v1 pith:JLQZEDGY submitted 2026-03-05 cond-mat.mtrl-sci cond-mat.mes-hall

Altermagnetic Metal-Organic Frameworks

classification cond-mat.mtrl-sci cond-mat.mes-hall
keywords altermagnetismmaterialsspinmagneticmetal-organicchallengesdiscusselectronic
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Altermagnetism has recently emerged as a new class of spin compensated magnetic materials that exhibit momentum dependent spin splitting despite having zero net magnetization. The origin of these electronic signatures lies in symmetry operations that connect opposite spin sublattices while allowing spin splitting in momentum space. While most candidate materials identified so far belong to inorganic crystals with fixed lattice symmetries, the realization of altermagnetism ultimately requires platforms in which magnetic symmetry can be deliberately engineered. In this Perspective, we discuss how metal-organic frameworks (MOFs) provide a unique chemical platform to address this challenge. We first place altermagnetism in the broader context of magnetic and electronically active metal-organic networks, highlighting how reticular chemistry enables precise control over lattice geometry, dimensionality and electronic structure. We then discuss how these features position framework materials as promising candidates for realizing altermagnetism and highlight the key challenges that must be addressed to translate theoretical proposals into experimentally accessible systems. Finally, we critically assess current experimental challenges and outline emerging directions for realizing and controlling altermagnetism in coordination framework materials, which emerge as a versatile and powerful platform for exploring new paradigms in spintronics.

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  1. Orbital-Engineered Altermagnetism in Two-Dimensional Square Lattices

    cond-mat.mtrl-sci 2026-05 unverdicted novelty 6.0

    Dual-orbital configurations in antiferromagnetic 2D square lattices lift Kramers degeneracy via orbital anisotropy in same-spin hopping, generating d-wave or g-wave altermagnetism, with M-TCNX monolayers identified as...