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均匀生长在石墨烯上的形貌可调超细金属氧化物纳米结构及其在光芬顿体系中的应用。

Morphology-tunable ultrafine metal oxide nanostructures uniformly grown on graphene and their applications in the photo-Fenton system.

作者信息

Shao Penghui, Tian Jiayu, Liu Borui, Shi Wenxin, Gao Shanshan, Song Yali, Ling Mei, Cui Fuyi

机构信息

State Key Laboratory of Urban Water Resource and Environment, Harbin Institute of Technology, Harbin 150090, PR China.

出版信息

Nanoscale. 2015 Sep 14;7(34):14254-63. doi: 10.1039/c5nr03042k.

Abstract

Hybrid nanostructures of low-dimensional metal oxide (MO) semiconductors based on two-dimensional (2D) graphene nanosheets have been considered as one of the most promising nanomaterials for an extensive variety of applications. Unfortunately, it is still challenging to rationally design and fabricate MO/graphene hybrids with highly controllable nanostructures and desirable properties, which are of paramount importance for practical applications. Here, we report a novel, facile and "green" glycerol-mediated self-assembly method, using α-Fe2O3 semiconductor as an illustrative example, for the controlled growth of MO with a well-defined nanostructure on 2D graphene nanosheets. Based on this new method, we first demonstrate the ability to exquisitely tune the α-Fe2O3 nanostructure from zero-dimensional quantum dots (∼3.2 nm) to one-dimensional mesoporous nanorods, and eventually to 2D mesoporous nanosheets over the entire surface of graphene nanosheets. A possible formation mechanism has been proposed based on the systematic investigation of the morphological evolution and growth processes of α-Fe2O3 on graphene. The as-synthesized samples exhibit excellent performance for the photo-Fenton treatment of polluted water at neutral pH under visible light irradiation. Moreover, TiO2 and Fe3O4 quantum dots (∼5.2 and 3.3 nm, respectively) ultradispersed on graphene are also successfully synthesized by this method, demonstrating its versatility for the rational fabrication of novel MO/graphene hybrids with huge potential applications.

摘要

基于二维石墨烯纳米片的低维金属氧化物(MO)半导体杂化纳米结构,被认为是最有前途的纳米材料之一,可用于广泛的各种应用。不幸的是,合理设计和制造具有高度可控纳米结构和理想性能的MO/石墨烯杂化物仍然具有挑战性,而这些对于实际应用至关重要。在此,我们报告一种新颖、简便且“绿色”的甘油介导自组装方法,以α-Fe2O3半导体为例,用于在二维石墨烯纳米片上可控生长具有明确纳米结构的MO。基于这种新方法,我们首先展示了将α-Fe2O3纳米结构从零维量子点(约3.2纳米)精确调节到一维介孔纳米棒,最终在石墨烯纳米片的整个表面上调节到二维介孔纳米片的能力。基于对α-Fe2O3在石墨烯上的形态演变和生长过程的系统研究,提出了一种可能的形成机制。所合成的样品在可见光照射下,对中性pH值的污染水进行光芬顿处理时表现出优异的性能。此外,通过该方法还成功合成了超分散在石墨烯上的TiO2和Fe3O4量子点(分别约为5.2和3.3纳米),证明了其在合理制造具有巨大潜在应用的新型MO/石墨烯杂化物方面的通用性。

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