Construction of Highly Porous and Robust Hydrogen‐Bonded Organic Framework for High‐Capacity Clean Energy Gas Storage

Wang, Jia‐Xin; Zhang, Xu; Jiang, Chenghao; Zhang, Teng‐Fei; Pei, Jiyan; Zhou, Wei; Yildirim, Taner; Chen, Banglin; Qian, Guodong; Li, Bin

doi:10.1002/anie.202411753

Angew Chem Int Ed

2024

DOI: 10.1002/anie.202411753

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Construction of Highly Porous and Robust Hydrogen‐Bonded Organic Framework for High‐Capacity Clean Energy Gas Storage

Jia‐Xin Wang,

Xu Zhang,

Chenghao Jiang

et al.

Abstract: Development of highly porous and robust HOFs for high‐pressure methane and hydrogen storage remains a grand challenge due to the fragile nature of hydrogen bonds. Herein, we report a strategy of constructing double‐walled framework to target highly porous and robust HOF (ZJU‐HOF‐5a) for extraordinary CH4 and H2 storage. ZJU‐HOF‐5a features a minimized twofold interpenetration with double‐walled structure, in which multiple supramolecular interactions are existed between the interpenetrated walls. This structur… Show more

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Cited by 3 publications

References 92 publications

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An Acid-Resistant Lanthanide Metal–Organic Framework Based on Tetraphenylethylene as an Electrochemical Nitrite Sensor

Li,

Zhou,

Zou

et al. 2024

Inorg. Chem.

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Nitrite (NO 2 − ) is attracting increasing attention due to its harmful effect on human health. Thus, it is highly desirable to construct effective electrochemical sensors to detect the presence of NO 2− . The majority of electrochemical NO 2 − detection is focused on alkaline or neutral electrolyte solutions and is rarely reported under acidic conditions. In this work, a tetraphenylethylene (TPE)based 2D lanthanide metal−organic framework (Ln-MOF),, has been successfully fabricated on carbon paper (CP) by an in situ hydrothermal method. As a NO 2 − sensor, the fabricated 1 electrode exhibited excellent electrochemical performance in the H 2 SO 4 electrolyte (pH = 1) and offers high sensitivities of 1453.2 and 591.5 μA mM −1 cm −2 , with a wide linear detection range of 0.1 μM to 9 M, a low detection limit of 60 nM, excellent specificity even in the presence of various analytes (metal ions, anions, and organic molecules) and real water samples, satisfactory stability, and reproducibility. This is the first report of TPE-based Ln-MOF as a NO 2 − sensor, and furthermore, a plausible sensing mechanism is confirmed by experiments and theoretical computations.

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An Acid-Resistant Lanthanide Metal–Organic Framework Based on Tetraphenylethylene as an Electrochemical Nitrite Sensor

Li,

Zhou,

Zou

et al. 2024

Inorg. Chem.

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Supramolecular crystals for hydrogen storage

2024

Nat. Chem.

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Synergistic effect promoting proton transport in metal–organic framework aerogels

Li,

Jia,

Liu

et al. 2025

Chem. Commun.

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Construction of Highly Porous and Robust Hydrogen‐Bonded Organic Framework for High‐Capacity Clean Energy Gas Storage

Cited by 3 publications

References 92 publications

An Acid-Resistant Lanthanide Metal–Organic Framework Based on Tetraphenylethylene as an Electrochemical Nitrite Sensor

An Acid-Resistant Lanthanide Metal–Organic Framework Based on Tetraphenylethylene as an Electrochemical Nitrite Sensor

Supramolecular crystals for hydrogen storage

Synergistic effect promoting proton transport in metal–organic framework aerogels

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