Monomicelle-induced assembly route toward low-dimensional mesoporous nanomaterials for catalysis

EcoEnergy Pub Date : 2023-10-30 DOI:10.1002/ece2.7
Wei Zhang, Kerun Zhu, Chaochao Yang, Yan Ai, Yihan Gao, Wei Li, Dongyuan Zhao
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Abstract

Low-dimensional mesoporous nanomaterials (LDMNs), which possess complementary properties in the mesoscale and nanoscale, have realized more technological potentials in a wide range of applications, in particular, catalysis. Although still in its infancy, the proposed monomicelles-induced assembly (MIA) has been proved to be an emerging and powerful toolbox for the direct synthesis of LDMNs with well-controlled mesostructures and architectures. This review starts from the developmental history of the MIA strategy and then discuss general protocols to fabricate the monomicelles. After that, manipulation of the monomicelles' assembly by well-designed interfaces and confined spaces for the controllable fabrication of LDMNs are reviewed in detail. Then, catalytic applications, including thermal, photo- and electrocatalysis, of LDMNs are discussed critically based on the structure-performance relationship. This review ends with a brief summary and further directions of the MIA strategy, paving the way for the synthesis of sophisticated mesoporous assemblies to achieve advanced functionalities.

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单胶团诱导组装低维介孔纳米材料的催化途径
低维介孔纳米材料(LDMNs)在介孔尺度和纳米尺度上具有互补的特性,具有广泛的应用潜力,特别是在催化方面。尽管仍处于起步阶段,但单细胞诱导组装(MIA)已被证明是直接合成具有良好介观结构和结构控制的ldmn的新兴和强大的工具箱。本文从MIA策略的发展历史出发,讨论了单束制备的一般方案。然后,通过精心设计的界面和有限空间来操纵单束组装,以实现ldmn的可控制造。然后,基于结构-性能关系,重点讨论了ldmn的催化应用,包括热催化、光催化和电催化。本文以简要总结和MIA策略的进一步方向结束,为合成复杂的介孔组装体以实现先进的功能铺平了道路。
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