Surface modification of porous g-C3N4 materials by waste product for enhanced photocatalytic performance under visible light
2019
A facile and low-cost g-C3N4 surface modification approach using biomass-derived liquid product is proposed in this work. Through the incorporation of renewable and sustainable bio-oil that is generated from a solar powered waste biomass pyrolysis, the surface functionality of pristine g-C3N4 material is modified with functional groups that are of electron-withdrawing character, leading to the improvement of the photocatalytic hydrogen evolution rate for modified C3N4 sample. At low reaction temperature (120 oC), the sample is modified through a cleavage of C-N bonds between three heptazine fragments and tertiary nitrogen, followed by the bonding of oxygenated functional groups. As the reaction temperature increases to a high reaction temperature (180 oC), a partial de-aromatization of triazine network in the C3N4 sample due to the intercalation of functional group from this post-synthesis bio-oil modification is further observed. The remarkable hydrogen evolution rate of modified C3N4 sample higher than that of pristine g-C3N4 is observed, attributed to the synergistic effects of the extended visible light response, better separation of the photogenerated charge carriers and the enlarged specific surface area.
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