在晶体骨架材料中平衡机械稳定性和超高孔隙率

Balancing Mechanical Stability and Ultrahigh Porosity in Crystalline Framework Materials.

作者信息

Hönicke Ines M, Senkovska Irena, Bon Volodymyr, Baburin Igor A, Bönisch Nadine, Raschke Silvia, Evans Jack D, Kaskel Stefan

机构信息

Chair of Inorganic Chemistry I, Technische Universität Dresden, Bergstrasse 66, 01062, Dresden, Germany.

Chair of Theoretical Chemistry, Technische Universität Dresden, Bergstrasse 66c, 01062, Dresden, Germany.

出版信息

Angew Chem Int Ed Engl. 2018 Oct 15;57(42):13780-13783. doi: 10.1002/anie.201808240. Epub 2018 Sep 24.

DOI:10.1002/anie.201808240

PMID:30160076

Abstract

A new mesoporous metal-organic framework (MOF; DUT-60) was conceptually designed in silico using Zn O nodes, ditopic and tritopic linkers to explore the stability limits of framework architectures with ultrahigh porosity. The robust ith-d topology of DUT-60 provides an average bulk and shear modulus (4.97 GPa and 0.50 GPa, respectively) for this ultra-porous framework, a key prerequisite to suppress pore collapse during desolvation. Subsequently, a cluster precursor approach, resulting in minimal side product formation in the solvothermal synthesis, was used to produce DUT-60, a new crystalline framework with the highest recorded accessible pore volume (5.02 cm g ) surpassing all known crystalline framework materials.

摘要

一种新型介孔金属有机框架材料（MOF；DUT-60）在计算机上通过使用氧化锌节点、双齿和三齿连接体进行了概念设计，以探索具有超高孔隙率的框架结构的稳定性极限。DUT-60坚固的ith-d拓扑结构为这种超多孔框架提供了平均体积模量和剪切模量（分别为4.97 GPa和0.50 GPa），这是在去溶剂化过程中抑制孔坍塌的关键前提条件。随后，采用一种在溶剂热合成中产生最少副产物的簇状前驱体方法来制备DUT-60，这是一种新的晶体框架材料，其记录的可及孔体积最高（5.02 cm³ g⁻¹），超过了所有已知的晶体框架材料。

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在晶体骨架材料中平衡机械稳定性和超高孔隙率

Balancing Mechanical Stability and Ultrahigh Porosity in Crystalline Framework Materials.

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