The negative thermal expansion (NTE) performance and correlated structure and magnetism for Si-doped Mn3Cu1−xSixN (x=0.1–0.5) are investigated. It is found that the NTE behavior appears below room temperature, the absolute value of coefficient of NTE (|α|) tends to be zero and the Curie temperature (Tc) raises rapidly as the increase of Si content. The tendency of TN temperature depending on Si contents implies that the valence electrons of Si atoms can partially be donated into Mn3d–N2p bond. Another important finding is that positive thermal expansion (PTE), NTE and zero thermal expansion (ZTE) are alternatively appeared by improving the Si content. The present work proposes a novel route to design the low-temperature devices using adjustable NTE or ZTE performance by making use of antiperovskite Mn3AN materials. Materials Letters, 2014 Negative thermal expansion behavior of Mn3Cu1−xSixN. Linear thermal expansion curves of Mn3Cu1−xSixN (a), local amplified NTE behavior (b) and Si content dependence of |α| values (c). Temperature dependence of magnetization for Mn3Cu1−xSixN, (a) x=0.1, (b) x=0.2, (c) x=0.3, (d) x=0.4, (e) x=0.5 and (f) structure and magnetic phase diagram of Mn3Cu1−xSixN as a function of Si content.
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