Isostructural Three‐Dimensional Covalent Organic Frameworks

Gao, Chao; Li, Jian; Yin, Sheng; Lin, Guiqing; Ma, Tianqiong; Meng, Yi; Sun, Junliang; Wang, Cheng

doi:10.1002/anie.201905591

Cited by 160 publications

(120 citation statements)

References 76 publications

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“…2c, inset) confirm its single-crystal nature. The single-crystal structure of mCOF-Ag is determined directly from the SCED data 39,40 (Fig. 2a).…”

Section: Resultsmentioning

confidence: 99%

Single crystal of a one-dimensional metallo-covalent organic framework

Luo

et al. 2020

Nat Commun

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112

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Although polymers have been studied for well over a century, there are few examples of covalently linked polymer crystals synthesised directly from solution. One-dimensional (1D) covalent polymers that are packed into a framework structure can be viewed as a 1D covalent organic framework (COF), but making a single crystal of this has been elusive. Herein, by combining labile metal coordination and dynamic covalent chemistry, we discover a strategy to synthesise single-crystal metallo-COFs under solvothermal conditions. The single-crystal structure is rigorously solved using single-crystal electron diffraction technique. The noncentrosymmetric metallo-COF allows second harmonic generation. Due to the presence of syntactic pendant amine groups along the polymer chains, the metallopolymer crystal can be further cross-linked into a crystalline woven network.

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“…2c, inset) confirm its single-crystal nature. The single-crystal structure of mCOF-Ag is determined directly from the SCED data 39,40 (Fig. 2a).…”

Section: Resultsmentioning

confidence: 99%

Single crystal of a one-dimensional metallo-covalent organic framework

Luo

et al. 2020

Nat Commun

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112

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“…Owing to their periodic architectures,l ow densities,h igh surface areas,a nd high stability,C OFs are considered as ah ighly designable and functionalized materials platform with various potential applications.S ince first discovered by Yaghi and co-workers in 2005, [2] intensive attentions have been devoted to constructing functional COFs with desired properties.T hanks to the efforts of many groups,al arge number of functional COFs have been reported over the past decade,w hich have found interesting applications in gas adsorption and separation, [3] heterogeneous catalysis, [4] molecular sensing, [5] energy storage, [6] proton conductivity, [7] and optoelectronics. [8] To construct COFs with desired functionalities,afacile way is incorporating specific functional moieties during their synthesis process.F rom as tructural viewpoint, these functional moieties can be integrated into either two-dimensional (2D) layered structures [9] or three-dimensional (3D) extended networks, [10] depending on the geometry and connectivity of the precursors.F or 2D COFs,the 2D flat sheets usually stack in af ace-to-face mode,a nd the functional moieties in the adjacent layers have strong p-p interactions that could be beneficial for the charge mobility.I nc ontrast, 3D COFs will allow the functional moieties to be three-dimensionally organized into the framework and thus feature open sites.…”

Section: Introductionmentioning

confidence: 99%

2D and 3D Porphyrinic Covalent Organic Frameworks: The Influence of Dimensionality on Functionality

et al. 2020

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The construction of 2D and 3D covalent organic frameworks (COFs) from functional moieties for desired properties has gained much attention. However, the influence of COFs dimensionality on their functionalities, which can further assist in COF design, has never been explored. Now, by selecting designed precursors and topology diagrams, 2D and 3D porphyrinic COFs (2D‐PdPor‐COF and 3D‐PdPor‐COF) are synthesized. By model building and Rietveld refinement of powder X‐ray diffraction, 2D‐PdPor‐COF crystallizes as 2D sheets while 3D‐PdPor‐COF adopts a five‐fold interpenetrated pts topology. Interestingly, compared with 2D‐PdPor‐COF, 3D‐PdPor‐COF showed interesting properties, including 1) higher CO2 adsorption capacity; 2) better photocatalytic performance; and 3) size‐selective photocatalysis. Based on this study, we believe that with the incorporation of functional moieties, the dimensionality of COFs can definitely influence their functionalities.

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“…Sun and coworkers prepared three isostructural imine-based COFs from tetraphenylbenzene tetraaldehydes which were disubstituted with hydrogen, methoxy, or fluoro groups. 30 Their structures were solved using continuous rotation electron diffraction and were found to be five-fold interpenetrated and very similar to each other. The fluorinated material had a much higher affinity for CO 2 than the nonfluorinated framework, as well as a higher (50:1) IAST (ideal adsorbed solution theory) selectivity for CO 2 over N 2 .…”

Section: Covalent Organic Framework and Porous Organic Polymersmentioning

confidence: 98%

Fluorinated Organic Porous Materials

Zhang

Miljanić

2019

Organic Materials

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Fluorine is in many aspects unique among the elements, and its incorporation into organic molecules can dramatically change their physical and chemical properties. This minireview will survey the existing classes of fluorinated porous materials, with a particular focus on all-organic porous materials. We will highlight our work on the preparation and study of metal–organic frameworks and porous molecular crystals derived from extensively fluorinated rigid aromatic pyrazoles and tetrazoles. Where possible, comparisons between fluorinated and nonfluorinated materials will be made.

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Isostructural Three‐Dimensional Covalent Organic Frameworks

Cited by 160 publications

References 76 publications

Single crystal of a one-dimensional metallo-covalent organic framework

Single crystal of a one-dimensional metallo-covalent organic framework

2D and 3D Porphyrinic Covalent Organic Frameworks: The Influence of Dimensionality on Functionality

Fluorinated Organic Porous Materials

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