Switch of Thermal Expansions Triggered by Itinerant Electrons in Isostructural Metal Trifluorides.
Feiyu QinXiaoying WangLei HuNing JiaZhibin GaoUmut AydemirJun ChenXiangdong DingJun SunPublished in: Inorganic chemistry (2022)
Manageable thermal expansion (MTE) of metal trifluorides can be achieved by introducing local structure distortion (LSD) in the negative thermal expansion ScF 3 . However, an open issue is why isostructural TiF 3 , free of LSD, exhibits positive thermal expansion. Herein, a combined analysis of synchrotron X-ray diffraction, X-ray pair distribution function, and rigorous first-principles calculations was performed to reveal the important role of itinerant electrons in mediating soft phonons and lattice dynamics. Metallic TiF 3 demonstrates itinerant electrons and a suppressed Grüneisen parameter γ ≈ -20, while insulating ScF 3 absence of itinerant electrons has a considerable γ ≈ -120. With increasing electron doping concentrations in ScF 3 , soft phonons become hardened and the γ is repressed significantly, identical to TiF 3 . The presented results update the thermal expansion transition mechanism in framework structure analogues and provide a practical approach to obtaining MTE without inducing sizable structure distortion.