Room-Temperature Ferromagnetism in an Iron-Based Zeolitic Imidazolate Framework Glass.
Chaohui Guo, Xuan Ge, Ang Qiao, Zijuan Du, Muzhi Cai, Xuefeng Wang, Haizheng Tao, Xiujian Zhao, Yuanzheng Yue
Abstract
Open AccessAlthough many metal-organic frameworks (MOFs) display magnetic properties, it remains unclear whether intrinsic weak ferromagnetism (WFM) can occur at room temperature within these materials. Here the discovery of the WFM is reported at room temperature in an iron-based zeolitic imidazolate framework (ZIF) glass, specifically Fe(Im)2, where Im is imidazolate. It is found that antiferromagnetic behavior in the crystalline Fe-ZIF transforms into WFM upon melt-quenching, i.e., during the transition to a structurally disordered glassy state. This magnetic transition is attributed to the enhanced exchange interactions between adjacent FeII nodes, resulting from a reduction in the FeII-FeII correlation length from 6.2 Å in the crystalline phase to 6.0 Å in the glass. 57Fe Mössbauer spectroscopy reveals that the order-to-disorder transition leads to a transition of the low-spin-state in FeII to the uniform high-spin state. The modification of the coordination environment induces room-temperature WFM. The finding opens a pathway for the application of MOF glasses in magnetic and spintronic technologies.