Synthesis and polymorphism of a new phase 1D chalcogenide M2N3X8 structure based on the periodic table: Ta2Ni3S8 with a tetragonal structure

Choi K.H. ¹Dong X. ¹Choi J.-Y. ¹Woo C. ²Jeong B.J. ²Kang J. ²Zhang X. ²Kim T.Y. ²Ahn J. ²Oh H.-S. ²Yu H.K. ³Jeon J.¹

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作者信息

1. SKKU Advanced Institute of Nanotechnology (SAINT) Sungkyunkwan University
2. School of Advanced Materials Science & Engineering Sungkyunkwan University
3. Dept. of Materials Science and Engineering & Department of Energy Systems Research Ajou University
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Abstract

? 2022 Elsevier B.V.For the first time, a new structure of Ta2Ni3S8, one of the family systems of M2N3X8, a recently studied one-dimensional chalcogenide material, was synthesized. Unlike Ta2Ni3S8 in the orthorhombic phase, which is known to have semiconductor properties, Ta2Ni3S8 in the tetragonal phase displayed metallic material properties. Structural analysis through X-ray diffraction confirmed that the tetragonal Ta2Ni3S8 (T-Ta2Ni3S8) had the same structure as the tetragonal Ta2Ni3Se8 (T-Ta2Ni3Se8), a material with an S- and Se- substitution; the only difference was the lattice constant. Additionally, different elemental analyses were used to confirm that the ratio of Ta:Ni:S elements was 2:3:8. This study is significant as basic research that can be applied to various electronic devices by applying bandgap tuning and lattice-matched electrode design based on M2N3X8 family material.

Key words

1D chalcogenide M2N3X8/Low-dimensional materials/Polymorphism/Ta2Ni3S8

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出版年

2022

Journal of Alloys and Compounds

EISCI

ISSN：0925-8388

参考文献量30

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