T.C. King, P.D. Matthews, J.P. Holgado, D.A. Jefferson, R.M. Lambert, A. Alavi, D.S. Wright
Carbon, 64 (2013) 6-10
doi: 10.1016/j.carbon.2013.04.043

The thermolysis of commercially available m-phenylenediamine (1,3-(NH₂)₂C₆H₄) at 800 °C under a static vacuum in a sealed quartz tube provides the first bulk synthesis of C₃N, whose properties have only been predicted theoretically previously. Hollow carbon microspheres (CMSs) which do not contain significant nitrogen doping (1–3 μm diameter) are co-produced in the reaction and readily separated from the C₃N flakes. The separate C₃N flakes and CMSs have been characterized by electron microscopy, X-ray spectroscopy and X-ray diffraction. These studies show that the samples of C₃N and CMSs both possess multi-layered turbostratic graphitic structures. A new mechanism for the template-free assembly of CMSs is proposed on the basis of electron microscopy that involves bubble evolution from a static carbonized layer.