具有巨大晶格常数梯度的纳米多孔设计固体：金属有机骨架的多杂化外延生长。

Nanoporous designer solids with huge lattice constant gradients: multiheteroepitaxy of metal-organic frameworks.

机构信息

Karlsruhe Institute of Technology, Institute of Functional Interfaces (IFG) , Hermann-von-Helmholtz-Platz 1, 76344 Eggenstein-Leopoldshafen, Germany.

出版信息

Nano Lett. 2014 Mar 12;14(3):1526-9. doi: 10.1021/nl404767k. Epub 2014 Feb 12.

DOI:10.1021/nl404767k

PMID:24512342

Abstract

We demonstrate the realization of hierarchically organized MOF (metal-organic framework) multilayer systems with pronounced differences in the size of the nanoscale pores. Unusually large values for the lattice constant mismatch at the MOF-MOF heterojunctions are made possible by a particular liquid-phase epitaxy process. The multiheteroepitaxy is demonstrated for the isoreticular SURMOF-2 series [ Liu et al. Sci. Rep. 2012 , 2 , 921 ] by fabricating trilayer systems with lattice constants of 1.12, 1.34, and 1.55 nm. Despite these large (20%) lattice mismatches, highly crystalline, oriented multilayers were obtained. A thorough theoretical analysis of the MOF-on-MOF heterojunction structure and energetics allows us to identify the two main reasons for this unexpected tolerance of large lattice mismatch: the healing of vacancies with acetate groups and the low elastic constant of MOF materials.

摘要

我们展示了具有明显纳米孔尺寸差异的分层组织 MOF（金属有机骨架）多层系统的实现。通过特殊的液相外延工艺，MOF-MOF 异质结处晶格常数失配的异常大值成为可能。通过制造晶格常数分别为 1.12、1.34 和 1.55nm 的三层系统，对同构 SURMOF-2 系列[Liu 等人，Sci. Rep. 2012, 2, 921]进行了多异质外延的证明。尽管存在这些较大的（20%）晶格失配，但仍获得了高结晶度、取向的多层。对 MOF 上 MOF 异质结结构和能态的深入理论分析使我们能够确定这种对大晶格失配的意外容忍的两个主要原因：用醋酸盐基团修复空位和 MOF 材料的低弹性常数。

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具有巨大晶格常数梯度的纳米多孔设计固体：金属有机骨架的多杂化外延生长。

Nanoporous designer solids with huge lattice constant gradients: multiheteroepitaxy of metal-organic frameworks.

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