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Oxygen vacancy engineering of novel ultrathin Bi12O17Br2 nanosheets for boosting photocatalytic N2 reduction

JOURNAL OF COLLOID AND INTERFACE SCIENCE [2022]
Kaiyue Gao, Chengming Zhang, Yi Zhang, Xiaoyu Zhou, Shuo Gu, Kehua Zhang, Xiufang Wang, Xiaojie Song
ABSTRACT

The conversion of N 2 to NH 3 is one of the most promising processes in maintaining natural life and chemical production. Photocatalytic nitrogen reduction reaction (NRR) has the advantage of clean and sustainable, which is considered to be an ideal synthesis technology. In this work, we report the successful synthesis of Bi 12 O 17 Br 2 ultrathin nanosheets through simple alkali treatment and solvothermal method . The Bi 12 O 17 Br 2 ultrathin nanosheets can improve the separation of carriers and the transfer of photogenerated electrons to N 2 molecules, thus improving the photocatalytic efficiency. Of note, the higher Bi/Br atomic ratio in Bi 12 O 17 Br 2 is beneficial to broaden the light absorption edge, and the high concentration of O atoms is easy to produce oxygen vacancies on the surface during the synthesis process of Bi 12 O 17 Br 2 . The abundant oxygen vacancies and high specific surface area enable N 2 molecules and water to have powerful chemical adsorption and activation. In addition, the photocatalytic reduction of N 2 to NH 3 in pure water shows excellent and stable performance, and the average generation rate of NH 3 reaches up to 620.5 μmol·L -1 ·h −1 . This study discovers that rich oxygen vacancies and ultrathin morphology may have a significant part in the process of the photocatalytic nitrogen reduction reaction.

MATERIALS

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