Room-Temperature Synthesis of Tubular Hexagonal Boron Nitride under Pressure

Abstract

Hexagonal boron nitride (h-BN) exhibits interesting optical and mechanical properties, including chemical and thermal stability. Extensive techniques have been applied for the realization of h-BN at high temperatures. Here, we propose a room-temperature preparation of h-BN at high pressure through the compression of ammonium azide and boron powder. The structure and morphology of the obtained h-BN are found to possess tubular-like features, and the selected-area electron diffraction and electron energy-loss spectroscopy support the formation of h-BN. Remarkably, h-BN grows gradually from the surface of boron particles to form a core–shell structure. This tubular morphology of h-BN with a size of 70 nanometers in length and 27 nanometers in width differs from the conventional lamellar h-BN generated with temperature assistance. Our results demonstrate a method for the room-temperature synthesis of tubular h-BN, which shows great promise for the preparation of other nitrides at high pressure and room temperature.