Pressure inverse solubility and polymorphism of an edible γ-cyclodextrin-based metal–organic framework

Patyk‐Kaźmierczak, Ewa; Warren, Mark R.; Allan, David R.; Katrusiak, Andrzej

doi:10.1039/c7cp00593h

Cited by 24 publications

(26 citation statements)

References 29 publications

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“…37,38 The 'breath effects' may not only be due to the inherent flexibility and porosity of the -CD linker, but also due to its weak coordination bonds with K + cations. Pressure and temperature were observed to influence the adsorption performance of CD-MOF materials because of their sensitivity to external conditions.…”

Section: Synthesis and Characterizationmentioning

confidence: 99%

“…Pressure and temperature were observed to influence the adsorption performance of CD-MOF materials because of their sensitivity to external conditions. 37,38 The 'breath effects' may not only be due to the inherent flexibility and porosity of the -CD linker, but also due to its weak coordination bonds with K + cations. 38 At 298 K, the amount of mX and pX adsorbed reached their plateau at a pressure of 8 mbar.…”

Section: Synthesis and Characterizationmentioning

confidence: 99%

“…37,38 The 'breath effects' may not only be due to the inherent flexibility and porosity of the -CD linker, but also due to its weak coordination bonds with K + cations. 38 At 298 K, the amount of mX and pX adsorbed reached their plateau at a pressure of 8 mbar. However, at 318 K, the amount adsorbed continued to increase, until the adsorption capacity of pX exceeded that of mX above 17 mbar pressure.…”

Section: Synthesis and Characterizationmentioning

confidence: 99%

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Efficient adsorption separation of xylene isomers using a facilely fabricated cyclodextrin‐based metal–organic framework

Chen

Zhu

et al. 2018

J of Chemical Tech & Biotech

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Background Metal−organic frameworks (MOFs) are energy‐efficient adsorbents for separating industrial chemical feedstocks. A type of MOF containing an extended porous network of γ‐cyclodextrin (γ‐CD) and alkali metal salts, CD‐MOF, has potential applications in adsorption separation processes in the petrochemical industry. This study aims to present the adsorption efficiency of CD‐MOF‐1 in separating xylene regioisomers. Results The adsorption separation of xylene regioisomers on layered CD‐MOF‐1 microcrystals was studied using batch vapor‐phase adsorption and liquid‐phase breakthrough adsorption. CD‐MOF‐1 showed preferable adsorption of o‐xylene over the other two isomers, with adsorption strength in the order o‐xylene (oX) > m‐xylene (mX) > p‐xylene (pX). With increased temperature, high adsorption capacities of oX and mX over pX were detected. However, this also resulted in a decrease of the separation factors of oX/pX and mX/pX. Conclusion The high resolution and large separation factors for oX/pX and mX/pX make CD‐MOF‐1 an efficient and reliable alternative adsorbent to the isolation protocols for xylene isomers currently used in the petrochemical industry. © 2018 Society of Chemical Industry

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Section: Synthesis and Characterizationmentioning

confidence: 99%

Section: Synthesis and Characterizationmentioning

confidence: 99%

Section: Synthesis and Characterizationmentioning

confidence: 99%

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Efficient adsorption separation of xylene isomers using a facilely fabricated cyclodextrin‐based metal–organic framework

Chen

Zhu

et al. 2018

J of Chemical Tech & Biotech

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“…This MOF (named γ-CD-MOF-1) consists of γ-CD and potassium cations and can be obtained by crystallization from water by the slow vapor diffusion of MeOH. It is known to exist in two crystalline phases, alpha (α) [11] and beta (β) [12]. In addition, α-phase of γ-CD-MOF-1 crystallizes in cubic symmetry with the I432 space group [11], whereas β-phase crystallizes in trigonal symmetry with R32 the space group [12].…”

Section: Introductionmentioning

confidence: 99%

“…It is known to exist in two crystalline phases, alpha (α) [11] and beta (β) [12]. In addition, α-phase of γ-CD-MOF-1 crystallizes in cubic symmetry with the I432 space group [11], whereas β-phase crystallizes in trigonal symmetry with R32 the space group [12]. Crystal structures of both phases are represented in Figure 1.…”

Section: Introductionmentioning

confidence: 99%

Stability and Phase Transitions of Nontoxic γ-Cyclodextrin-K+ Metal-Organic Framework in Various Solvents

et al. 2020

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Cyclodextrin (CD) has been used to prepare biocompatible and nontoxic metal-organic frameworks (MOFs) suitable for biomedical applications as drug carriers. In this study, γ-CD/K-based MOF (γ-CD-MOF-1-α) was synthesized and its stability in various solvents was explored by single-crystal X-ray diffractometry (SCXRD) and powder X-ray diffractometry (PXRD). As a result of solvent-induced phase transformations, two novel crystalline phases of γ-CD-MOF-1 were discovered. The newly formed ε- and δ-phases crystallize in orthorhombic and tetragonal symmetry, respectively. In ε-phase, toluene was determined as a guest molecule by SCXRD. Interactions between γ-cyclodextrin and solvent molecules in ε-phase were evaluated using Hirshfeld surface analysis. The thermal stability of the new crystal forms of γ-CD-MOF-1 was analyzed by differential scanning calorimetry and thermogravimetric analysis.

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Metal‐Organic Coordination Polymers Formed from γ‐Cyclodextrin and Divalent Metal Ions

et al. 2019

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The chemistry of metal-organic frameworks based on cyclodextrins and alkali metals has been extensively investigated in recent years, but coordination polymers with non-alkali metals have been rarely reported. Here, we describe the synthesis and X-ray crystallographic characterization of a series of coordination polymers, [Ba(H 2 and [Pb(H 2 O)(γ-CD)](NO 3 ) 2 ·11H 2 O (γ-CD-Pb), which were obtained by reacting γ-cyclodextrin with alkaline earth metal ions and [a] Nikolaev

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Pressure inverse solubility and polymorphism of an edible γ-cyclodextrin-based metal–organic framework

Cited by 24 publications

References 29 publications

Efficient adsorption separation of xylene isomers using a facilely fabricated cyclodextrin‐based metal–organic framework

Efficient adsorption separation of xylene isomers using a facilely fabricated cyclodextrin‐based metal–organic framework

Stability and Phase Transitions of Nontoxic γ-Cyclodextrin-K+ Metal-Organic Framework in Various Solvents

Metal‐Organic Coordination Polymers Formed from γ‐Cyclodextrin and Divalent Metal Ions

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