One‐Step Hydrothermal Synthesis of 2D Hexagonal Nanoplates of α‐Fe2O3/Graphene Composites with Enhanced Photocatalytic Activity |
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Authors: | Sancan Han Linfeng Hu Ziqi Liang Swelm Wageh Ahmed A. Al‐Ghamdi Yongsheng Chen Xiaosheng Fang |
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Affiliation: | 1. Department of Materials Science, Fudan University, Shanghai, P. R. China;2. Department of Physics, Faculty of Science, King Abdulaziz University, Jeddah, Saudi Arabia;3. Key Laboratory of Functional Polymer Materials and the Centre of Nanoscale Science and Technology, Institute of Polymer Chemistry, College of Chemistry, Nankai University, Tianjin, P. R. China |
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Abstract: | There has been significant progress in the field of semiconductor photocatalysis, but it is still a challenge to fabricate low‐cost and high‐activity photocatalysts because of safety issues and non‐secondary pollution to the environment. Here, 2D hexagonal nanoplates of α‐Fe2O3/graphene composites with relatively good distribution are synthesized for the first time using a simple, one‐step, template‐free, hydrothermal method that achieves the effective reduction of the graphene oxide (GO) to graphene and intimate and large contact interfaces of the α‐Fe2O3 nanoplates with graphene. The α‐Fe2O3/graphene composites showed significantly enhancement in the photocatalytic activity compared with the pure α‐Fe2O3 nanoplates. At an optimal ratio of 5 wt% graphene, 98% of Rhodamine (RhB) is decomposed with 20 min of irradiation, and the rate constant of the composites is almost four times higher than that of pure α‐Fe2O3 nanoplates. The decisive factors in improving the photocatalytic performance are the intimate and large contact interfaces between 2D hexagonal α‐Fe2O3 nanoplates and graphene, in addition to the high electron withdrawing/storing ability and the highconductivity of reduced graphene oxide (RGO) formed during the hydrothermal reaction. The effective charge transfer from α‐Fe2O3 nanoplates to graphene sheets is demonstrated by the significant weakening of photoluminescence in α‐Fe2O3/graphene composites. |
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Keywords: | nanoplates graphene photocatalytic performance photoluminescence composite materials |
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