Xiaoling Ren, Honghui Ou, Wei Liu, Yang Lv, Aofei Xu, Zhiwei Ren, Bolun Yang, Guidong Yang
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引用次数: 0
摘要
本文提出了一种提高光催化剂周围氮浓度以实现光催化氮还原的新策略。设计并合成了新型酸性离子液体(IL)耦合缺陷氧化钨涂覆碳壳(W@C)。结果表明,离子液体与氮之间的作用力强于水与氮之间的作用力,从而提高了氧化钨催化剂周围的氮浓度。此外,中空结构的碳壳具有分子富集效应,可有效实现氮的富集,减少 IL 的逸出。最后,酸性 IL 耦合 W@C 的氨合成性能为 52.6 μmol g h,分别是氧化钨样品和 W@C 样品的 9 倍和 2 倍左右。这项工作充分揭示了合理设计催化剂结构和提高催化剂周围氮浓度对提高光催化降氮性能的重要性。
New Lewis acidic ionic liquid coupled carbon shell coated defective WO3 for efficient photocatalytic N2 reduction
Herein, a new strategy to enhance the nitrogen concentration around the photocatalyst for photocatalytic nitrogen reduction was proposed. And new type of acidic ionic liquid (IL) coupled defective tungsten oxide coated with carbon shell (W@C) was designed and synthesized. The results show that the interaction force between IL and nitrogen is stronger than that between water and nitrogen, which increases the concentration of nitrogen around the tungsten oxide catalyst. In addition, the carbon shell with a hollow structure has a molecular enrichment effect, which can effectively achieve nitrogen enrichment and reduce IL escape. Finally, the ammonia synthesis performance of acidic IL coupled W@C is 52.6 μmol g h, which is about 9 times and 2 times of tungsten oxide and W@C sample, respectively. This work fully reveals the importance of designing the catalyst structure reasonably and increasing the nitrogen concentration around the catalyst to improve the photocatalytic nitrogen reduction performance.
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