Iron Nitride Nanopowders Prepared by High-Pressure Gas-Solid Reaction

Fe4N nanopowders were prepared using specially-made high-pressure gas-solid reaction equipment, and their composition, morphology, and magnetic properties were analyzed by X-ray diffraction (XRD), transmission electron microscopy (TEM), and vibrating sample magnetometry (VSM). An average particle size of 35 nm was obtained at 0.4 MPa, an ammonia-to-hydrogen ratio of 3:1, 623 K, in an ammonia solution for 2 h. The hysteresis loop displayed a thin and narrow shape at 673 K during VSM tests. The saturation magnetization (Ms) reached 169.80 emu/g.

Two-step crystal–crystal phase transformation of N-salicylidene-p-aminobenzoic acid by gas–solid reaction with aqua–ammonia vapour

Crystal–crystal phase transformation by external stimuli has attracted significant attention for application in switchable materials, which can change their structures and properties. Herein, it is revealed that N-salicylidene-p-aminobenzoic acid crystals undergo a two-step crystal–crystal phase transformation through a gas–solid reaction with aqua–ammonia vapour. The photochromic behaviour of the crystals switched from nonphotochromic to photochromic and back to nonphotochromic via a phase transformation. The two-step phase transformation and photochromic behaviour change were characterized and correlated by X-ray crystal structure analysis, UV–Vis spectroscopy, differential scanning calorimetry and scanning electron microscopy. This article is the first report to capture the stepwise structural change in the gas–solid (acid–base) reaction of ammonia with benzoic acid derivatives.