Spontaneous magnetization below 7.7 K based on an extended 3-D H-bonding network material: synthesis, crystal structure and magnetic properties
Abstract
The structure of the complex [4-aminopyridinium][Ni(mnt)2], as determined by X-ray single crystal analysis, consists of 4-aminopyridinium cations and [Ni(mnt)2]− anions. The interactions between anions and cations via the bifurcated N(Py)–H⋯NC H-bonds give rise to a 1-D zigzag chain of alternating cations and anions, and a 3-D H-bonding network through further N(NH2)–H⋯NC interactions. χdc and χac have been measured down to 1.8 K and analysed, indicating the existence of a spin canting phenomenon. Below the critical temperature (around 7.7 K), the sample spontaneously magnetizes, and the hysteresis loop was observed at 1.85 K, corresponding parameters are as follows: Hc = 150 Oe and Mr = 7.9 emu mol−1. The pathway of the exchange interaction in this complex via H-bonding is discussed in light of the crystal structure analysis.