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Literature DB >> 28504831

From Discrete Molecular Cages to a Network of Cages Exhibiting Enhanced CO₂ Adsorption Capacity.

Lei Zhang¹, Long Xiang², Cheng Hang¹, Wenlong Liu³, Wei Huang¹, Yichang Pan².

Abstract

We have adopted the concept of "cage to frameworks" to successfully produce a Na-N connected coordination networked cage Na-NC1 by using a [3+6] porous imine-linked organic cage NC1 (Nanjing Cage 1) as the precursor. It is found that Na-NC1 exhibits hierarchical porosity (inherent permanent voids and interconnected channel) and gas sorption measurements reveal a significantly enhanced CO2 uptake (1093 cm3 g-1 at 23 bar and 273 K) than that of NC1 (162 cm3 g-1 under the same conditions). In addition, Na-NC1 exhibits very low CO2 adsorption enthalpy making it a good candidate for porous materials with both high CO2 storage and low adsorption enthalpy.

Entities: Chemical Gene

Keywords: Schiff bases; cage compounds; carbon dioxide storage; hierarchically porous materials; sodium

Year: 2017 PMID： 28504831 DOI： 10.1002/anie.201702399

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

6 in total

1. Networked Cages for Enhanced CO₂ Capture and Sensing.

Authors: Zhen Wang; Hui Ma; Tian-Long Zhai; Guang Cheng; Qian Xu; Jun-Min Liu; Jiakuan Yang; Qing-Mei Zhang; Qing-Pu Zhang; Yan-Song Zheng; Bien Tan; Chun Zhang
Journal: Adv Sci (Weinh) Date: 2018-05-17 Impact factor: 16.806

2. Analogy Powered by Prediction and Structural Invariants: Computationally Led Discovery of a Mesoporous Hydrogen-Bonded Organic Cage Crystal.

Authors: Qiang Zhu; Jay Johal; Daniel E Widdowson; Zhongfu Pang; Boyu Li; Christopher M Kane; Vitaliy Kurlin; Graeme M Day; Marc A Little; Andrew I Cooper
Journal: J Am Chem Soc Date: 2022-05-29 Impact factor: 16.383

From Discrete Molecular Cages to a Network of Cages Exhibiting Enhanced CO₂ Adsorption Capacity.

1. Networked Cages for Enhanced CO₂ Capture and Sensing.

2. Analogy Powered by Prediction and Structural Invariants: Computationally Led Discovery of a Mesoporous Hydrogen-Bonded Organic Cage Crystal.

3. Post-Synthetic Modification of a Porous Hydrocarbon Cage to Give a Discrete Co₂₄ Organometallic Complex.

4. "Eggs in egg cartons": co-crystallization to embed molecular cages into crystalline lattices.

5. Self-assembly of metal-organic polyhedra into supramolecular polymers with intrinsic microporosity.

6. Chaperone-like chiral cages for catalyzing enantio-selective supramolecular polymerization.

From Discrete Molecular Cages to a Network of Cages Exhibiting Enhanced CO2 Adsorption Capacity.

1. Networked Cages for Enhanced CO2 Capture and Sensing.

2. Analogy Powered by Prediction and Structural Invariants: Computationally Led Discovery of a Mesoporous Hydrogen-Bonded Organic Cage Crystal.

3. Post-Synthetic Modification of a Porous Hydrocarbon Cage to Give a Discrete Co24 Organometallic Complex.

4. "Eggs in egg cartons": co-crystallization to embed molecular cages into crystalline lattices.

5. Self-assembly of metal-organic polyhedra into supramolecular polymers with intrinsic microporosity.

6. Chaperone-like chiral cages for catalyzing enantio-selective supramolecular polymerization.

From Discrete Molecular Cages to a Network of Cages Exhibiting Enhanced CO₂ Adsorption Capacity.

1. Networked Cages for Enhanced CO₂ Capture and Sensing.

3. Post-Synthetic Modification of a Porous Hydrocarbon Cage to Give a Discrete Co₂₄ Organometallic Complex.