用于可扩展制备高结晶度介孔金属氧化物的无溶剂自组装法

Solvent-Free Self-Assembly for Scalable Preparation of Highly Crystalline Mesoporous Metal Oxides.

作者信息

Xiong Hailong, Zhou Hongru, Sun Ge, Liu Zhilin, Zhang Liangliang, Zhang Ling, Du Fei, Qiao Zhen-An, Dai Sheng

机构信息

State Key Laboratory of Inorganic Synthesis and Preparative Chemistry, Jilin University, Changchun, Jilin, 130012, China.

Key Laboratory of Physics and Technology for Advanced Batteries (Ministry of Education), State Key Laboratory of Superhard Materials, College of Physics, Jilin University, Jilin, 130012, China.

出版信息

Angew Chem Int Ed Engl. 2020 Jun 26;59(27):11053-11060. doi: 10.1002/anie.202002051. Epub 2020 Apr 30.

DOI:10.1002/anie.202002051

PMID:32173989

Abstract

Mesoporous metal oxides (MMOs) have been demonstrated great potential in various applications. Up to now, the direct synthesis of MMOs is still limited to the solvent induced inorganic-organic self-assembly process. Here, we develop a facile, general, and high throughput solvent-free self-assembly strategy to synthesize a series of MMOs including single-component MMOs and multi-component MMOs (e.g., doped MMOs, composite MMOs, and polymetallic oxide) with high crystallinity and remarkable porous properties by grinding and heating raw materials. Compared with the traditional solution self-assembly process, the avoidance of solvents in this method not only greatly increases the yield of target products and synthesis efficiency, but also reduces the environmental pollution and the consumption of cost and energy. We believe the presented approach will pave a new avenue for scalable production of advanced mesoporous materials for various applications.

摘要

介孔金属氧化物（MMOs）已在各种应用中展现出巨大潜力。到目前为止，MMOs的直接合成仍局限于溶剂诱导的无机-有机自组装过程。在此，我们开发了一种简便、通用且高通量的无溶剂自组装策略，通过研磨和加热原料来合成一系列具有高结晶度和显著多孔性能的MMOs，包括单组分MMOs和多组分MMOs（如掺杂MMOs、复合MMOs和多金属氧化物）。与传统的溶液自组装过程相比，该方法避免使用溶剂不仅大大提高了目标产物的产率和合成效率，还减少了环境污染以及成本和能源消耗。我们相信所提出的方法将为大规模生产用于各种应用的先进介孔材料开辟一条新途径。

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用于可扩展制备高结晶度介孔金属氧化物的无溶剂自组装法

Solvent-Free Self-Assembly for Scalable Preparation of Highly Crystalline Mesoporous Metal Oxides.

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