Issue 46, 2023

Nitrogen-rich porous organic cages with high acetylene storage and separation performance

Abstract

Searching for porous materials that can safely store and efficiently separate acetylene (C2H2), a commonly used petrochemical feedstock with highly explosive properties, is a pressing and significant task. Nitrogen-rich porous materials have garnered substantial attention for their ability to interact strongly with acidic C2H2. Herein, we report two novel nitrogen-rich porous organic cages (POCs), namely CPOC-107 and CPOC-203, constructed from the same bowl-shaped tetraformylcalix[4]resorcinarene but different nitrogen-rich imidazolium-based diamine synthons. X-ray crystallographic analysis reveals that CPOC-107 adopts a [2 + 4] lantern-shaped structure, whereas CPOC-203 takes on a [3 + 6] triangular prism shape. Moreover, the cages exhibit large cavity volumes of up to 787 Å3 and high specific surface areas of up to 1202 m2 g−1. Owing to their high surface areas and high nitrogen content, both cages exhibit impressive C2H2 adsorption capabilities. Specifically, CPOC-107 achieves a remarkable C2H2 uptake value of up to 146 cm3 g−1 at 298 K and 1 atm, the highest among those reported for all porous organic materials to date. Moreover, experimental breakthrough tests have confirmed the effective separation of C2H2/CO2 mixtures using the CPOC-107 adsorbent.

Graphical abstract: Nitrogen-rich porous organic cages with high acetylene storage and separation performance

Supplementary files

Article information

Article type
Paper
Submitted
14 Jul 2023
Accepted
19 Sep 2023
First published
20 Sep 2023
This article is Open Access
Creative Commons BY license

J. Mater. Chem. A, 2023,11, 25316-25321

Nitrogen-rich porous organic cages with high acetylene storage and separation performance

L. Feng, Y. Xie, W. Wang, K. Su and D. Yuan, J. Mater. Chem. A, 2023, 11, 25316 DOI: 10.1039/D3TA04154A

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