Synthesis of cubic silicon nitride

Silicon nitride (Si3N4) is used in a variety of important technological applications. The high fracture toughness, hardness and wear resistance of Si3N4-based ceramics are exploited in cutting tools and anti-friction bearings(1); in electronic applications, Si3N4 is used as an insulating, masking and passivating material(2). Two polymorphs of silicon nitride are known, both of hexagonal structure: alpha- and beta-Si3N4. Here we report the synthesis of a third polymorph of silicon nitride, which has a cubic spinel structure. This new phase, c-Si3N4, is formed at pressures above 15 GPa and temperatures exceeding 2,000 K, yet persists metastably in air at ambient pressure to at least 700 K. First-principles calculations of the properties of this phase suggest that the hardness of c-Si3N4 Should be comparable to that of the hardest known oxide (stishovite(3), a high-pressure phase of SiO2), and significantly greater than the hardness of the two hexagonal polymorphs.