Pore Shape Modification of a Microporous Metal-Organic Framework Using High Pressure: Accessing a New Phase with Oversized Guest Molecules

Scott C. McKellar; Jorge Sotelo; Alex Greenaway; John P. S. Mowat; Odin Kvam; Carole A. Morrison; Paul A. Wright; Stephen A. Moggach

doi:10.1021/acs.chemmater.5b02891

Pore Shape Modification of a Microporous Metal-Organic Framework Using High Pressure: Accessing a New Phase with Oversized Guest Molecules

Scott C. McKellar, Jorge Sotelo, Alex Greenaway, John P. S. Mowat, Odin Kvam, Carole A. Morrison, Paul A. Wright, Stephen A. Moggach

Research output: Contribution to journal › Article › peer-review

33 Citations (Web of Science)

Abstract

Pressures up to 0.8 GPa have been used to squeeze a range of sterically "oversized" C5-C8 alkane guest molecules into the cavities of a small-pore Sc-based metal organic framework. Guest inclusion causes a pronounced reorientation of the aromatic rings of one-third of the terephthalate linkers, which act as "torsion springs", resulting in a fully reversible change in the local pore structure. The study demonstrates how pressure-induced guest uptake can be used to investigate framework flexibility relevant to "breathing" behavior and to understand the uptake of guest molecules in MOFs relevant to hydrocarbon separation.

Original language	English
Pages (from-to)	466-473
Number of pages	8
Journal	Chemistry of Materials
Volume	28
Issue number	2
DOIs	https://doi.org/10.1021/acs.chemmater.5b02891
Publication status	Published - 26 Jan 2016
Externally published	Yes

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title = "Pore Shape Modification of a Microporous Metal-Organic Framework Using High Pressure: Accessing a New Phase with Oversized Guest Molecules",

abstract = "Pressures up to 0.8 GPa have been used to squeeze a range of sterically {"}oversized{"} C5-C8 alkane guest molecules into the cavities of a small-pore Sc-based metal organic framework. Guest inclusion causes a pronounced reorientation of the aromatic rings of one-third of the terephthalate linkers, which act as {"}torsion springs{"}, resulting in a fully reversible change in the local pore structure. The study demonstrates how pressure-induced guest uptake can be used to investigate framework flexibility relevant to {"}breathing{"} behavior and to understand the uptake of guest molecules in MOFs relevant to hydrocarbon separation.",

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doi = "10.1021/acs.chemmater.5b02891",

language = "English",

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T2 - Accessing a New Phase with Oversized Guest Molecules

AU - McKellar, Scott C.

AU - Sotelo, Jorge

AU - Greenaway, Alex

AU - Mowat, John P. S.

AU - Kvam, Odin

AU - Morrison, Carole A.

AU - Wright, Paul A.

AU - Moggach, Stephen A.

PY - 2016/1/26

Y1 - 2016/1/26

N2 - Pressures up to 0.8 GPa have been used to squeeze a range of sterically "oversized" C5-C8 alkane guest molecules into the cavities of a small-pore Sc-based metal organic framework. Guest inclusion causes a pronounced reorientation of the aromatic rings of one-third of the terephthalate linkers, which act as "torsion springs", resulting in a fully reversible change in the local pore structure. The study demonstrates how pressure-induced guest uptake can be used to investigate framework flexibility relevant to "breathing" behavior and to understand the uptake of guest molecules in MOFs relevant to hydrocarbon separation.

AB - Pressures up to 0.8 GPa have been used to squeeze a range of sterically "oversized" C5-C8 alkane guest molecules into the cavities of a small-pore Sc-based metal organic framework. Guest inclusion causes a pronounced reorientation of the aromatic rings of one-third of the terephthalate linkers, which act as "torsion springs", resulting in a fully reversible change in the local pore structure. The study demonstrates how pressure-induced guest uptake can be used to investigate framework flexibility relevant to "breathing" behavior and to understand the uptake of guest molecules in MOFs relevant to hydrocarbon separation.

KW - SCANDIUM TEREPHTHALATE

KW - CRYSTAL-STRUCTURES

KW - ADSORPTION

KW - MIL-53

KW - SC-2(O2CC6H4CO2)(3)

KW - SIMULATIONS

KW - MEMBRANE

KW - SIZE

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U2 - 10.1021/acs.chemmater.5b02891

DO - 10.1021/acs.chemmater.5b02891

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EP - 473

JO - Chemistry of Materials

JF - Chemistry of Materials

IS - 2

ER -

Pore Shape Modification of a Microporous Metal-Organic Framework Using High Pressure: Accessing a New Phase with Oversized Guest Molecules

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