Structural, Magnetic, and Optical Properties of the van der Waals Antiferromagnet AgCrP<sub>2</sub>Se<sub>6</sub>

Susner, Michael A.; Conner, Benjamin S.; Rowe, Emmanuel; Siebenaller, Ryan; Giordano, Andrea; McLeod, Michael V.; Ebbing, Charles R.; Bullard, Thomas J.; Selhorst, Ryan; Haugan, Timothy J.; Jiang, Jie; Pachter, Ruth; Rao, Rahul

doi:10.1021/acs.jpcc.3c07433

J. Phys. Chem. C

2024

DOI: 10.1021/acs.jpcc.3c07433

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Structural, Magnetic, and Optical Properties of the van der Waals Antiferromagnet AgCrP₂Se₆

Michael A. Susner,

Benjamin S. Conner,

Emmanuel Rowe

et al.

Abstract: We have undertaken an extensive study of the structural, magnetic, calorimetric, and optical properties of AgCrP 2 Se 6 , a cleavable van der Waals material in the greater metal thio/selenophosphate family. We have found that this material exhibits a crystal structure of P3 1 12 and is antiferromagnetic below ∼42 K, with spins pointed along the lamellar direction (i.e., the ab plane) rather than along the stacking direction. The magnetic saturation at 5 K is ∼2.7 μ B /Cr. We note the presence of additional ind… Show more

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Cited by 4 publications

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Medium‐Entropy Engineering of Magnetism in Layered Antiferromagnet Cu_xNi_2(1‐_x₎Cr_xP₂S₆

Upreti,

Basnet,

Sharma

et al. 2024

Adv Funct Materials

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Antiferromagnetic van der Waals‐type M2P2X6 compounds provide a versatile material platform for studying 2D magnetism and relevant phenomena. Establishing ferromagnetism in 2D materials is technologically valuable. Though magnetism is generally tunable via a chemical way, it is challenging to induce ferromagnetism with isovalent chalcogen and bimetallic substitutions in M2P2X6. Here, we report co‐substitution of Cu1+ and Cr3+ for Ni2+ in Ni2P2S6, creating CuxNi2(1‐x)CrxP2S6 medium‐entropy alloys spanning a full substitution range (x = 0 to 1). Such substitution strategy leads to a unique evolution in crystal structure and magnetic phases that are distinct from traditional isovalent bimetallic doping, with Cu and Cr co‐substitution enhancing ferromagnetic correlations and generating a weak ferromagnetic phase in intermediate compositions. This aliovalent substitution strategy offers a universal approach for tuning layered magnetism in antiferromagnetic systems, which along with the potential for light‐matter interaction and high‐temperature ferroelectricity, can enable multifunctional device applications.

show abstract

Medium‐Entropy Engineering of Magnetism in Layered Antiferromagnet Cu_xNi_2(1‐_x₎Cr_xP₂S₆

Upreti,

Basnet,

Sharma

et al. 2024

Adv Funct Materials

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Multi-band luminescence from a rare earth-based two-dimensional material

Rao,

Rowe,

Siebenaller

et al. 2024

Matter

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Understanding and tuning magnetism in van der Waals-type metal thiophosphates

Basnet,

2024

Nanoscale

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Structural, Magnetic, and Optical Properties of the van der Waals Antiferromagnet AgCrP₂Se₆

Cited by 4 publications

References 68 publications

Medium‐Entropy Engineering of Magnetism in Layered Antiferromagnet Cu_xNi_2(1‐_x₎Cr_xP₂S₆

Medium‐Entropy Engineering of Magnetism in Layered Antiferromagnet Cu_xNi_2(1‐_x₎Cr_xP₂S₆

Multi-band luminescence from a rare earth-based two-dimensional material

Understanding and tuning magnetism in van der Waals-type metal thiophosphates

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Structural, Magnetic, and Optical Properties of the van der Waals Antiferromagnet AgCrP2Se6

Cited by 4 publications

References 68 publications

Medium‐Entropy Engineering of Magnetism in Layered Antiferromagnet CuxNi2(1‐x)CrxP2S6

Medium‐Entropy Engineering of Magnetism in Layered Antiferromagnet CuxNi2(1‐x)CrxP2S6

Multi-band luminescence from a rare earth-based two-dimensional material

Understanding and tuning magnetism in van der Waals-type metal thiophosphates

Contact Info

Product

Resources

About

Structural, Magnetic, and Optical Properties of the van der Waals Antiferromagnet AgCrP₂Se₆

Medium‐Entropy Engineering of Magnetism in Layered Antiferromagnet Cu_xNi_2(1‐_x₎Cr_xP₂S₆

Medium‐Entropy Engineering of Magnetism in Layered Antiferromagnet Cu_xNi_2(1‐_x₎Cr_xP₂S₆