Highly graphitic carbon nanosheets synthesized over tailored mesoporous molecular sieves using acetylene by chemical vapor deposition method

Abstract

Graphitic carbon nanosheets (GCNS) were synthesized using mesoporous Ti-MCM-41 molecular sieves as catalytic template and acetylene as carbon precursor following chemical vapor deposition method, under atmospheric pressure. The mesoporous Ti-MCM-41 molecular sieves with various Si/Ti ratios were synthesized by direct hydrothermal method. The materials so obtained were characterized by various physico-chemical techniques such as X-ray diffraction (XRD), thermogravimetric analysis (TGA), scanning electron microscopy (SEM), high resolution transmission electron microscopy (HRTEM) and Raman spectroscopy. The analytical results indicated that the obtained GCNS possess high thermal stability and good graphitization with an inter layer distance of around 3.45 Å. The influence of reaction parameters such as temperature and catalytic templates was studied to improve the quality and quantity of GCNS. The excellent graphitized GCNS material on a large scale was achieved from Ti-MCM-41 at moderate reaction temperature. This work proposes a way for the large scale synthesis of GCNS with applications suitable for nanoelectronics, nanocomposites and so on.