2026-03-04 東京都立大学
図1.CoZr2の結晶構造 (I4/mcm)とCoZr2Hx (P4/ncc)の結晶構造。
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CoZr2H3.49の弱遍歴強磁性相における一軸負熱膨張 Uniaxial Negative Thermal Expansion in a Weak-Itinerant-Ferromagnetic Phase of CoZr2H3.49
Yuto Watanabe,Kota Suzuki,Takayoshi Katase,Akira Miura,Aichi Yamashita,Yoshikazu Mizuguchi
Journal of the American Chemical Society Published: February 10, 2026
DOI:https://doi.org/10.1021/jacs.5c22412
Abstract
We report an observation of uniaxial negative thermal expansion (NTE) that emerges exclusively in the weak-itinerant-ferromagnetic phase of hydrogenated CoZr2H3.49. Powder synchrotron X-ray diffraction revealed that the c-axis contracts upon heating below the Curie temperature (TC = 139 K), whereas the a-axis shows a positive thermal expansion. Magnetization measurements combined with Arrott plot analyses yielded a Rhodes–Wohlfarth ratio of 3.49, establishing the itinerant nature of the ferromagnetism. The observed uniaxial NTE in CoZr2H3.49 clearly contrasts with the phonon-driven type anomalous thermal expansion in CoZr2 superconductors, which demonstrates that hydrogen insertion switches both the electronic structure and the mechanisms of the uniaxial NTE. The uniaxial NTE is likely associated with an enhanced sharpening of the antibonding Co3dz2 density of states, which favors the expansion of the one-dimensional Co–Co chain along the c-axis as the temperature decreases in the ferromagnetic state. These results establish the CoZr2Hx system as a platform for investigating the interplay among superconductivity, itinerant ferromagnetism, and NTE.
