Abstract
More people have studied the photocatalytic performance of graphitic carbon nitride without paying much attention to its adsorption modification. In this work, we first designed a novel hot dog-like BaCO3/g-C3N4 adsorbent by growing acicular g-C3N4 on insulator BaCO3, which exhibited an effective selective adsorption of crystal violet (CV). The adsorption efficiency of BaCO3/g-C3N4 for 800 mg/L crystal violet in 2 h was 96.67 %, which was far superior to that of solo g-C3N4 (14.40 %) or BaCO3 (7.45 %), and the corresponding maximum adsorption capacity could reach 1240.49 mg/g. The CV adsorption on BaCO3/g-C3N4 followed pseudo-second-order kinetic models and Langmuir isotherms, suggesting that the adsorption process may be controlled by chemical adsorption. Based on the structural analysis of BaCO3/g-C3N4 and the comparison of FT-IR and XPS of samples before and after adsorption, a possible mechanism for effective selective adsorption of CV was proposed, and the synergistic effects of π-π stacking, n-π interaction and hydrogen bonding were deduced to be responsible for the selective and efficient adsorption of CV on BaCO3/g-C3N4.
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