Dual-ligand 3D lammelar chiral metal–organic framework for capillary electrochromatographic enantioseparations

Miao, Pandeng; Li, Yuchen; Du, Yingxiang

doi:10.1007/s00604-023-05890-0

Cited by 5 publications

(3 citation statements)

References 39 publications

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“…In addition, the modified columns show excellent stability and reproducibility. Du et al [80] . synthesized a two‐ligand metal‐organic skeleton based on tryptophan and camphoric acid, which was used as a stationary phase for capillary electrochromatography when the ratio of tryptophan and camphoric acid was 1 : 1, and several common enantiomers were separated with good results.…”

Section: Application Of Chiral Metal‐organic Frameworkmentioning

confidence: 99%

Synthesis Strategies, Preparation Methods, and Applications of Chiral Metal‐Organic Frameworks

Zhang,

Cheng,

Pei

et al. 2024

Chemistry A European J

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Chiral metal‐organic framework (CMOFs) is a kind of material with great application value in recent years. Formed by the coordination of metal ions or metal clusters with organic ligands. It is widely used in chemistry, biology, medicine and materials science because of its ordered and adjustable pores, multi‐dimensional network structure, large specific surface area and excellent adsorption properties. In this paper, the synthesis strategies and preparation methods of chiral metal‐organic frameworks are reviewed. In addition, the applications of chiral metal‐organic framework materials in enantiomer recognition and separation, circularly polarized luminescence and asymmetric catalysis are systematically summarized. Finally, the challenges and prospects of the development of chiral metal‐organic frame materials are analyzed in detail.

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Section: Application Of Chiral Metal‐organic Frameworkmentioning

confidence: 99%

Synthesis Strategies, Preparation Methods, and Applications of Chiral Metal‐Organic Frameworks

Zhang,

Cheng,

Pei

et al. 2024

Chemistry A European J

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“…Homochiral metal-organic frameworks (HMOFs), as an emerging class of chiral crystalline porous materials, have gained widespread attention for their intriguing applications in asymmetric catalysis, [1][2][3] enantioseparation, [4][5][6][7][8] chiral recognition [9][10][11][12] and other areas of asymmetry. Nevertheless, despite the appealing characteristics of HMOFs, such as their controlled synthesis, extraordinary porosity and highly accessible chiral functional sites, the limited chemical stability of most reported highly porous HMOFs has immensely hindered their industrial implementation.…”

Section: Introductionmentioning

confidence: 99%

Highly stable chiral Cr(iii)-based metal–organic frameworks for enantioadsorption separation of aromatic alcohols

Li,

Wu,

Hong

2024

Inorg. Chem. Front.

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“…17 Many reports have shown the potential of CMOFs as novel CSPs for enantiomeric separation. 18–21 Also, these studies showed that the pore structure, chiral sites, morphological features and particle size of CMOFs are the key factors affecting their enantiomeric separation performance. 22 Therefore, not only the skeleton structure of chiral MOFs can be optimized for enantioseparation, but also the enantiomeric separation performance can be improved by optimizing the morphology and particle size of CMOF based stationary phases.…”

Section: Introductionmentioning

confidence: 99%

Preparation of chiral metal–organic framework l-his-MIL-53-NH₂@SiO₂ composite by in situ growth and chiral post-modification strategies for HPLC enantiomeric separation

Ma,

Liu,

Zhu

et al. 2024

New J. Chem.

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Dual-ligand 3D lammelar chiral metal–organic framework for capillary electrochromatographic enantioseparations

Cited by 5 publications

References 39 publications

Synthesis Strategies, Preparation Methods, and Applications of Chiral Metal‐Organic Frameworks

Synthesis Strategies, Preparation Methods, and Applications of Chiral Metal‐Organic Frameworks

Highly stable chiral Cr(iii)-based metal–organic frameworks for enantioadsorption separation of aromatic alcohols

Preparation of chiral metal–organic framework l-his-MIL-53-NH₂@SiO₂ composite by in situ growth and chiral post-modification strategies for HPLC enantiomeric separation

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Dual-ligand 3D lammelar chiral metal–organic framework for capillary electrochromatographic enantioseparations

Cited by 5 publications

References 39 publications

Synthesis Strategies, Preparation Methods, and Applications of Chiral Metal‐Organic Frameworks

Synthesis Strategies, Preparation Methods, and Applications of Chiral Metal‐Organic Frameworks

Highly stable chiral Cr(iii)-based metal–organic frameworks for enantioadsorption separation of aromatic alcohols

Preparation of chiral metal–organic framework l-his-MIL-53-NH2@SiO2 composite by in situ growth and chiral post-modification strategies for HPLC enantiomeric separation

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Preparation of chiral metal–organic framework l-his-MIL-53-NH₂@SiO₂ composite by in situ growth and chiral post-modification strategies for HPLC enantiomeric separation