Add to ORKG*S Supporting Information ABSTRACT: Efforts to synthesize, characterize, and recover novel polynitrogen energetic materials have driven attempts to subject high nitrogen content precursor materials (in particular, metal and nonmetal azides) to elevated pressures. Here we present a combined theoretical and experimental study of the high-pressure behavior of ammonium azide (NH4N3). Using density functional theory, we have considered the relative thermodynamic stability of the material with respect to two other crystal phases, namely, trans-tetrazene (TTZ), and also a novel hydronitrogen solid (HNS) of the form (NH)4, that was recently predicted to become relatively stable under high pressure. Experimentally, we have measured the Raman spectra...
First-principles crystal structure search is performed to predict novel rubidium poly-nitrogen mater...
High-nitrogen-content energetic compounds containing multiple N-N bonds are an attractive alternativ...
With the rapid development of science and technology, people’s demand for energy materials is increa...
*S Supporting Information ABSTRACT: Efforts to synthesize, characterize, and recover novel polynitro...
Efforts to synthesize, characterize, and recover novel polynitrogen energetic materials have driven ...
International audienceDue to its potential applications as a high-energy density material, the high-...
International audienceThe compression of ammonium azide (AA) has been considered to be a promising r...
The properties of ammonium azide NH4N3 upon compression were investigated using first-principles den...
The phase diagram and equation of state of dense nitrogen are of interest in understanding the funda...
Two new crystalline compounds, pentazole (N5H) and ammonium pentazolate (NH4)(N5), both featuring cy...
High pressure experiments utilizing Raman spectroscopy indicate that the a phase of sodium azide und...
Two new crystalline compounds, pentazole (N<sub>5</sub>H) and ammonium pentazolate (NH<sub>4</sub>)...
International audienceAlthough the potential of polynitrogen as a high-energy density material (HEDM...
The structural and electronic properties of NaN3 at high pressures were studied through ab initio ca...
Although the potential of polynitrogen as a high-energy density material (HEDM) has attracted attent...
First-principles crystal structure search is performed to predict novel rubidium poly-nitrogen mater...
High-nitrogen-content energetic compounds containing multiple N-N bonds are an attractive alternativ...
With the rapid development of science and technology, people’s demand for energy materials is increa...
*S Supporting Information ABSTRACT: Efforts to synthesize, characterize, and recover novel polynitro...
Efforts to synthesize, characterize, and recover novel polynitrogen energetic materials have driven ...
International audienceDue to its potential applications as a high-energy density material, the high-...
International audienceThe compression of ammonium azide (AA) has been considered to be a promising r...
The properties of ammonium azide NH4N3 upon compression were investigated using first-principles den...
The phase diagram and equation of state of dense nitrogen are of interest in understanding the funda...
Two new crystalline compounds, pentazole (N5H) and ammonium pentazolate (NH4)(N5), both featuring cy...
High pressure experiments utilizing Raman spectroscopy indicate that the a phase of sodium azide und...
Two new crystalline compounds, pentazole (N<sub>5</sub>H) and ammonium pentazolate (NH<sub>4</sub>)...
International audienceAlthough the potential of polynitrogen as a high-energy density material (HEDM...
The structural and electronic properties of NaN3 at high pressures were studied through ab initio ca...
Although the potential of polynitrogen as a high-energy density material (HEDM) has attracted attent...
First-principles crystal structure search is performed to predict novel rubidium poly-nitrogen mater...
High-nitrogen-content energetic compounds containing multiple N-N bonds are an attractive alternativ...
With the rapid development of science and technology, people’s demand for energy materials is increa...