Coexistence of Long-Range Magnetic Order and Magnetic Frustration of a Novel Two-Dimensional S = 1/2 Structure: Na2Cu3(SeO3)4

Magnetism Pub Date : 2024-02-13 DOI:10.3390/magnetism4010003
Emily D. Williams, Keith M. Taddei, Kulugammana G. S. Ranmohotti, Narendirakumar Narayanan, Thomas Heitmann, J. Kolis, L. Sanjeewa
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Abstract

Novel quantum materials offer the opportunity to expand next-generation computers, high-precision sensors, and new energy technologies. Among the most important factors influencing the development of quantum materials research is the ability of inorganic and materials chemists to grow high-quality single crystals. Here, the synthesis, structure characterization and magnetic properties of Na2Cu3(SeO3)4 are reported. It exhibits a novel two-dimensional (2D) structure with isolated layers of Cu nets. Single crystals of Na2Cu3(SeO3)4 were grown using a low-temperature hydrothermal method. Single-crystal X-ray diffraction reveals that Na2Cu3(SeO3)4 crystallizes in the monoclinic crystal system and has space group symmetry of P21/n (No.14) with a unit cell of a = 8.1704(4) Å, b = 5.1659(2) Å, c = 14.7406(6) Å, β = 100.86(2), V = 611.01(5) Å3 and Z = 2. Na2Cu3(SeO3)4 comprises a 2D Cu-O-Cu lattice containing two unique copper sites, a CuO6 octahedra and a CuO5 square pyramid. The SeO3 groups bridge the 2D Cu-O-Cu layers isolating the neighboring Cu-O-Cu layers, thereby enhancing their 2D nature. Magnetic properties were determined by measuring the magnetic susceptibility of an array of randomly oriented single crystals of Na2Cu3(SeO3)4. The temperature-dependent magnetic measurement shows an antiferromagnetic transition at TN = 4 K. These results suggest the fruitfulness of hydrothermal synthesis in achieving novel quantum materials and encourage future work on the chemistry of transition metal selenite.
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新型二维 S = 1/2 结构的长程磁有序性和磁约束共存:Na2Cu3(SeO3)4
新型量子材料为扩展下一代计算机、高精度传感器和新能源技术提供了机会。影响量子材料研究发展的最重要因素之一是无机和材料化学家生长高质量单晶体的能力。本文报告了 Na2Cu3(SeO3)4 的合成、结构表征和磁性能。它呈现出一种新颖的二维(2D)结构,具有孤立的铜网层。Na2Cu3(SeO3)4 的单晶是采用低温水热法生长的。单晶 X 射线衍射显示,Na2Cu3(SeO3)4 结晶为单斜晶系,空间群对称性为 P21/n(No.14),单胞为 a = 8.1704(4)埃、b = 5.1659(2)埃、c = 14.7406(6)埃、β = 100.86(2)、V = 611.01(5)埃3 和 Z = 2。Na2Cu3(SeO3)4 由二维 Cu-O-Cu 晶格组成,其中包含两个独特的铜位点:一个 CuO6 八面体和一个 CuO5 正方金字塔。SeO3 基团桥接了二维 Cu-O-Cu 层,隔离了邻近的 Cu-O-Cu 层,从而增强了它们的二维性质。通过测量 Na2Cu3(SeO3)4 无规取向单晶阵列的磁感应强度,确定了其磁性能。 这些结果表明水热合成法在实现新型量子材料方面取得了丰硕成果,并鼓励今后在过渡金属硒酸盐化学方面开展工作。
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