一种简便的溶剂热法合成 NiFe 层状双氢氧化物-BiMoO 异质结构/还原氧化石墨烯，用于高效光降解四环素。

A facile solvothermal syntheses of NiFe layered double hydroxide-BiMoO heterostructure/reduced graphene oxide with efficient photodegradation for tetracycline.

机构信息

Key Laboratory of Advanced Catalytic Materials and Technology, Advanced Catalysis and Green Manufacturing Collaborative Innovation Center, Changzhou University, Changzhou, 213164, Jiangsu Province, China.

出版信息

Environ Res. 2022 Mar;204(Pt B):112037. doi: 10.1016/j.envres.2021.112037. Epub 2021 Sep 25.

DOI:10.1016/j.envres.2021.112037

PMID:34582802

Abstract

A heterojunction of NiFe layered double hydroxide (NiFe LDH)-BiMoO (BMO) loaded on reduced graphene oxide (RGO) sheets was synthesized via an eco-friendly solvothermal reaction. The structural characterization shows that NiFe LDH-BMO heterojunctions are well-distributed on the surface of silk-like transparent RGO sheets. The modification of BMO by NiFe LDH and RGO greatly enhances the photocatalytic performance of BMO for degradation of tetracycline (TC) under visible light. The photocatalyst prepared with 3 wt% RGO shows the highest activity and cycle stability. TC can be completely removed in 80 min, which is about 8.7 times that pure BMO, and showing excellent reusability even after five cycles. The excellent enhancement of photocatalytic performance of NiFe LDH-BMO/RGO composite is attributed to the unique sheet-on-sheet hierarchical heterostructure combined with RGO sheets, facilitating the visible light absorption and photogenerated charge carriers separation.

摘要

通过一种环保的溶剂热反应，合成了负载在还原氧化石墨烯（RGO）片上的 NiFe 层状双氢氧化物（NiFe LDH）-BiMoO（BMO）异质结。结构表征表明，NiFe LDH-BMO 异质结均匀分布在丝带状透明 RGO 片的表面上。BMO 通过 NiFe LDH 和 RGO 的修饰极大地提高了 BMO 在可见光下降解四环素（TC）的光催化性能。在 3wt% RGO 的修饰下制备的光催化剂表现出最高的活性和循环稳定性。TC 在 80min 内可完全去除，约为纯 BMO 的 8.7 倍，即使经过五次循环仍具有优异的可重复使用性。NiFe LDH-BMO/RGO 复合材料光催化性能的优异增强归因于独特的片层-片层分级异质结构与 RGO 片相结合，促进了可见光吸收和光生载流子分离。

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一种简便的溶剂热法合成 NiFe 层状双氢氧化物-BiMoO 异质结构/还原氧化石墨烯，用于高效光降解四环素。

A facile solvothermal syntheses of NiFe layered double hydroxide-BiMoO heterostructure/reduced graphene oxide with efficient photodegradation for tetracycline.

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