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Two-Dimensional Transition Metal Boron Cluster Compounds (MB<sub><i>n</i></sub>enes) with Strain-Independent Room-Temperature Magnetism

Daoxiong Wu, Xingqi Han, Chunxia Wu, Yiming Song, Jing Li, Yangyang Wan, Xiaojun Wu, Xinlong Tian

2024The Journal of Physical Chemistry Letters16 citationsDOI

Abstract

Two-dimensional (2D) metal borides (MBenes) with unique electronic structures and physicochemical properties hold great promise for various applications. Given the abundance of boron clusters, we proposed employing them as structural motifs to design 2D transition metal boron cluster compounds (MB n enes), an extension of MBenes. Herein, we have designed three stable MB n enes (M 4 (B 12 ) 2, M = Mn, Fe, Co) based on B 12 clusters and investigated their electronic and magnetic properties using first-principles calculations. Mn 4 (B 12 ) 2 and Co 4 (B 12 ) 2 are semiconductors, while Fe 4 (B 12 ) 2 exhibits metallic behavior. The unique structure in MB n enes allows the coexistence of direct exchange interactions between adjacent metal atoms and indirect exchange interactions mediated by the clusters, endowing them with a Néel temperature ( T N ) up to 772 K. Moreover, both Mn 4 (B 12 ) 2 and Fe 4 (B 12 ) 2 showcase strain-independent room-temperature magnetism, making them potential candidates for spintronics applications. The MB n enes family provides a fresh avenue for the design of 2D materials featuring unique structures and excellent physicochemical properties.

Topics & Concepts

MagnetismSpintronicsTransition metalCluster (spacecraft)BoronMaterials scienceElectronic structureMetalNanotechnologyCrystallographyChemical physicsCondensed matter physicsChemistryComputational chemistryFerromagnetismPhysicsCatalysisMetallurgyProgramming languageOrganic chemistryComputer scienceBiochemistry2D Materials and ApplicationsBoron and Carbon Nanomaterials ResearchMXene and MAX Phase Materials