Porous isoreticular non-metal organic frameworks

O’Shaughnessy, Megan; Glover, Joseph; Hafizi, Roohollah; Barhi, Mounib; Clowes, Rob; Chong, Samantha Y.; Argent, Stephen P.; Day, Graeme M.; Cooper, Andrew I.

doi:10.1038/s41586-024-07353-9

Nature

2024

DOI: 10.1038/s41586-024-07353-9

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Porous isoreticular non-metal organic frameworks

Megan O’Shaughnessy,

Joseph Glover,

Roohollah Hafizi

et al.

Abstract: Metal–organic frameworks (MOFs) are useful synthetic materials that are built by the programmed assembly of metal nodes and organic linkers1. The success of MOFs results from the isoreticular principle2, which allows families of structurally analogous frameworks to be built in a predictable way. This relies on directional coordinate covalent bonding to define the framework geometry. However, isoreticular strategies do not translate to other common crystalline solids, such as organic salts3–5, in which the inte… Show more

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Cited by 25 publications

References 71 publications

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Design of Porous Organic Polymer ASEIs for Zn Anode Protection and Ion Migration Regulation

Bian,

Xue,

Bin

et al. 2024

Adv Funct Materials

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Rechargeable aqueous Zn metal batteries (RAZMBs) are considered as a competitive alternative to the next generation of energy storage system. However, the Zn stripping/plating reversibility is greatly limited by the dendrite growth and the side reactions on Zn anode. In virtue of the excellent protection and ion migration regulation effects, porous organic polymer artificial solid electrolyte interphases (POPASEIs) have attracted widespread attention in stabilizing Zn anode. This article summarizes the progress of Zn anode POPASEIs in recent years, divided into two categories according to the polymer matrix: porous polymer‐based POPASEIs and nonporous polymer‐based POPASEIs. The porous polymer‐based POPASEIs can be divided into porous coordination organic polymer (PCOOP)‐based and porous covalent organic polymers (PCVOP)‐based ASEIs according to the chemical structure, while nonporous polymer‐based POPASEIs can be divided into four types according to the pore‐forming strategies, including phase separation‐induced POPASEIs, template‐assisted POPASEIs, fiber‐formed POPASEIs, porous filler‐modified POPASEIs. In addition, the structural advantages, challenges, and perspectives of POPASEIs for Zn anode are also discussed to provide guidance for the further research and development of Zn anode ASEIs.

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Design of Porous Organic Polymer ASEIs for Zn Anode Protection and Ion Migration Regulation

Bian,

Xue,

Bin

et al. 2024

Adv Funct Materials

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A Noncovalent π‐Stacked Dual‐Pore Molecular Crystal for Ethanol/Water and Benzene/Methanol Azeotrope Separation

Meng,

Zou,

et al. 2024

Angewandte Chemie

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Separation of ethanol/water or benzene/methanol azeotrope mixtures presents significant challenges, not only due to the limitations of conventional distillation techniques but also because of the constraints in developing and utilizing of new generation adsorbents. Porous organic molecular frameworks constructed via noncovalent π‐interactions are emerging as novel adsorbents with vast potential in gas adsorption and molecular separation. Herein, we report a permanent two‐dimensional porous structure, namely TDTBA‐1, which consists of two different kinds of pores through π‐stacking of a single organic molecule with highly Td symmetry. Activated TDTBA‐1 exhibits excellent hydrophobicity, thermal stability, recoverability and high selectivity for ethanol over water, and benzene over methanol. Therefore, activated TDTBA‐1 can be used as an efficient stationary phase for the separation of ethanol/water and benzene/methanol azeotropes by high‐resolution gas chromatography.

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Integrated Monomer Synthesis and Framework Assembly: Achieving Isoreticular Modulation of Hydrogen‐Bonded Organic Frameworks

Shang,

Ma,

Kang

et al. 2024

Angewandte Chemie

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Systematic construction of isoreticular hydrogen‐bonded organic frameworks (HOFs) promises tailored material properties crucial for diverse applications, yet is challenging due to the weak, flexible, and non‐directional nature of hydrogen bonds. Herein, we develop an “integrated monomer synthesis‐framework assembly” (ISA) methodology for constructing a series of isoreticular HOFs. Unlike traditional methods where monomers are first synthesized and then assembled into HOFs, the ISA system employs dicyandiamide rigid hydrogen‐bonded hexameric clusters as connecting nodes to covalently react with planarized C3‐symmetric cyano‐precursors (C3‐CPs) to generate diaminotriazine (DAT) monomers, while simultaneously inducing the directional assembly into isoreticular (6,3)‐net hcb topological DAT‐C6‐HOFs. The pore sizes and microenvironments of the resulting DAT‐C6‐HOFs can be precisely tuned by varying the structural modulation (length and steric hindrance) of the π‐bridge on C3‐CPs, enabling highly selective sensing towards perfluorooctanoic acid over other homologous molecules, that are difficult to be separated and detected by chromatography. Overall, the ISA methodology facilitates the scalable creation of families of isostructural HOFs and provides a customized structural platform for investigating factors beyond topology that impact the capturing, releasing, and responding to guest molecules.

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Porous isoreticular non-metal organic frameworks

Cited by 25 publications

References 71 publications

Design of Porous Organic Polymer ASEIs for Zn Anode Protection and Ion Migration Regulation

Design of Porous Organic Polymer ASEIs for Zn Anode Protection and Ion Migration Regulation

A Noncovalent π‐Stacked Dual‐Pore Molecular Crystal for Ethanol/Water and Benzene/Methanol Azeotrope Separation

Integrated Monomer Synthesis and Framework Assembly: Achieving Isoreticular Modulation of Hydrogen‐Bonded Organic Frameworks

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