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  • Structural Properties and ELNES of Polycrystalline and Nanoporous Mg3N2.

Structural Properties and ELNES of Polycrystalline and Nanoporous Mg3N2.

Microscopy and microanalysis : the official journal of Microscopy Society of America, Microbeam Analysis Society, Microscopical Society of Canada (2020-01-11)
Olivia Wenzel, Viktor Rein, Radian Popescu, Claus Feldmann, Dagmar Gerthsen
초록

Nanoporous, high-purity magnesium nitride (Mg3N2) was synthesized with a liquid ammonia-based process, for potential applications in optoelectronics, gas separation and catalysis, since these applications require high material purity and crystallinity, which has seldom been demonstrated in the past. One way to evaluate the degree of crystalline near-range order and atomic environment is electron energy-loss spectroscopy (EELS) in a transmission electron microscope. However, there are hardly any data on Mg3N2, which makes identification of electron energy-loss near-edge structure (ELNES) features difficult. Therefore, we have studied nanoporous Mg3N2 with EELS in detail in comparison to EELS spectra of bulk Mg3N2, which was analyzed as a reference material. The N-K and Mg-K edges of both materials are similar. Despite having the same crystal structure, however, there are differences in fine-structural features, such as shifts and absences of peaks in the N-K and Mg-K edges of nanoporous Mg3N2. These differences in ELNES are attributed to coordination changes in nanoporous Mg3N2 caused by the significantly smaller crystallite size of 2-6 nm compared to the larger (25-125 nm) crystal size in a bulk material.

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Sigma-Aldrich
Magnesium nitride, cubic phase, −325 mesh, ≥99.5% trace metals basis