We report a ferromagnetic compound Ba9V3Te15 with quasi-one-dimensional spin chains, which exhibits strong one-dimensional structural character. It is a semiconductor with negative magnetoresistance effect and undergoes a ferromagnetic transition.
Here we report a ferromagnetic compound Ba9V3Te15 with quasi-one-dimensional (1D) spin chains. It was synthesized at high-temperature and high-pressure conditions and systematically investigated via structural, transport, magnetic and heat capacity measurements. Ba9V3Te15 mainly consists of trimerized face-sharing VTe6 octahedral chains running along the c axis, which are separated by a distance of 10.184(8) angstrom, thus demonstrating a strong 1D structural character. Ba9V3Te15 is a semiconductor with a band gap -128 meV and undergoes a fer-romagnetic transition with TC -3.6 K. Far above TC, the short-range spin orders due to the intrachain spin cou-pling have developed, which leads to a negative magnetoresistance effect, the deviation of magnetic susceptibility from the Curie-Weiss law and T1/2 dependence of magnetic heat capacity. Our results reveal that Ba9V3Te15 provides a good opportunity to study the intrinsic properties of a system with quasi-1D ferromagnetic spin chains.
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