Synthesis of carbon nitride powder by selective etching of TiC 0.3N 0.7 in chlorine-containing atmosphere at moderate temperature

Abstract

We reported the synthesis of carbon nitride powder by extracting titanium from single inorganic precursor TiC 0.3N 0.7 in chlorine-containing atmosphere at ambient pressure and temperature not exceeding 500 °C. The TiC 0.3N 0.7 crystalline structure acted as a template, supplying active carbon and nitrogen atoms for carbon nitride when it was destroyed in chlorination. X-ray diffraction data showed that the obtained carbon nitride powders were amorphous, which was in good agreement with transmission electron microscope analysis. The composition and structure of carbon nitride powders were analyzed by employing Fourier transform infrared spectroscopy, Raman spectroscopy, and X-ray photoelectron spectroscopy. Results indicated that disorder structure was most likely for the carbon nitride powders and the N content depended greatly on the chlorination temperature. Thermal analysis in flowing N 2 indicated that the mass loss started from 300 °C and the complete decomposition occurred at around 650 °C, confirming the low thermal stability of the carbon nitride material.