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Adv. Mater.最新综述:空心结构介孔材料---化学合成、功能化及应用已有16人参与
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具有空心结构的介孔材料因其巨大的比表面积在能源、催化等领域有着广泛的应用。本文介绍了近年来空心结构介孔材料的大量文献的最新研究进展,为研究该领域提供了很好的指导。题目为Hollow-Structured Mesoporous Materials: Chemical Synthesis, Functionalization and Applications Keywords: hollow materials;mesoporous materials;core–shell materials;synthesis;applications Hollow-structured mesoporous materials (HMMs), as a kind of mesoporous material with unique morphology, have been of great interest in the past decade because of the subtle combination of the hollow architecture with the mesoporous nanostructure. Benefitting from the merits of low density, large void space, large specific surface area, and, especially, the good biocompatibility, HMMs present promising application prospects in various fields, such as adsorption and storage, confined catalysis when catalytically active species are incorporated in the core and/or shell, controlled drug release, targeted drug delivery, and simultaneous diagnosis and therapy of cancers when the surface and/or core of the HMMs are functionalized with functional ligands and/or nanoparticles, and so on. In this review, recent progress in the design, synthesis, functionalization, and applications of hollow mesoporous materials are discussed. Two main synthetic strategies, soft-templating and hard-templating routes, are broadly sorted and described in detail. Progress in the main application aspects of HMMs, such as adsorption and storage, catalysis, and biomedicine, are also discussed in detail in this article, in terms of the unique features of the combined large void space in the core and the mesoporous network in the shell. Functionalization of the core and pore/outer surfaces with functional organic groups and/or nanoparticles, and their performance, are summarized in this article. Finally, an outlook of their prospects and challenges in terms of their controlled synthesis and scaled application is presented.  Hollow-Structured Mesoporous Materials: Chemical Synthesis, Functionalization and Applications.jpg |
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2014-03-31 19:54:57, 6.24 M
» 收录本帖的淘帖专辑推荐
 纳米机理 | 超级电容器及各种科研精华 | 文献推荐 | 纳米化学/电化学综述 |
| 石墨烯及电化学 荧光材料 | 综述精华集 | 综述类文章+前沿研究 | 专业书 |
| Book & Review | 多孔材料 | 无机化学科研 | MOF的未来 |
| 光催化 | 核壳结构光催化 | 多孔材料与催化剂 | 催化 |
| 感觉有用的帖子 | 先进材料与制备 | 感兴趣 | 急用 |
| paper | nature,science及综述 |
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