The uniaxial zero thermal expansion (ZTE) in distorted Prussian blue analogue (PBA) RbCuCo(CN) 6 is reproduced by employing first-principles calculations, which agrees well with the experimental data. Also, the zero linear compressibility (ZLC) behavior in RbCuCo(CN) 6 can be found. The special Jahn-Teller distortion introduced by Cu 2+ in RbCuCo(CN) 6 is noticed by investigating the change of the local structure with temperature and hydrostatic pressure. The lattice thermal conductivity (LTC) and phonon group velocity of RbCuCo(CN) 6 are studied, where the LTC and phonon group velocity are significantly anisotropic. Especially, RbCuCo(CN) 6 exhibits a quite low LTC, and its c -axis shows a characteristic of glasslike LTC at low temperatures. Our work facilitates a deep understanding of the coexistence mechanisms of uniaxial ZTE and ZLC properties in RbCuCo(CN) 6 .
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