Photocatalytic reduction for graphene oxide by PbTiO 3 with high polarizability and its electrocatalytic application in pyrrole detection

Quick recombination of photogenerated electrons and holes in photocatalytic process remains a huge challenge. And the routine efforts are concentrated on heterojunction, metal decoration and surface defect strategies. PbTiO as a typical perovskite ferroelectrics is with a strong built-inelectric fie...

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Bibliographic Details
Published in:Journal of colloid and interface science 2020-02, Vol.560, p.502
Main Authors: Peng, Qi, Weng, Xuehua, Xie, Wenqiang, Ying, Meihui, Lin, Xucong, Dai, Yongwei, Yu, Qunying, Pan, Haibo, Liu, Junshao, Du, Min
Format: Article
Language:English
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Summary:Quick recombination of photogenerated electrons and holes in photocatalytic process remains a huge challenge. And the routine efforts are concentrated on heterojunction, metal decoration and surface defect strategies. PbTiO as a typical perovskite ferroelectrics is with a strong built-inelectric field as self-junction caused by internal spontaneous polarization, facilitating the charge separation in the photocatalytic process. Here, under UV irradiation, L-shaped PbTiO with active (1 1 0) facet as a photocatalyst was applied to photo-reduce graphene oxide (GO), where a specific reduced graphene oxide (rGO)/PbTiO composite was synthesized in presence of isopropanol, a hole-trapping agent. According to the linear optical properties, the polarizability of PbTiO is calculated to 1.01 × 10  cm (2.68 times that of P25 (TiO )), inducing the photo-excited charge separation by PbTiO . Based on XPS characterization, a TiOC chemical bond is identified on the interface between rGO and PbTiO . The response peak current for an electrochemical sensor based on rGO/PbTiO was proportional to the concentration of pyrrole (6.6 × 10 -3.1 × 10 M, R  = 0.999), and an extremely low limit reaches to 2.38 × 10 M. In addition, polypyrrole during the pyrrole detection was realized by the multi-cycle oxidation process. And also, the electrochemical detection has been successfully applied for the pyrrole quantification in real samples.
ISSN:1095-7103