Imine-Linked Polymer-Derived Nitrogen-Doped Microporous Carbons with Excellent CO<sub>2</sub> Capture Properties

Abstract

A series of nitrogen-doped microporous carbons (NCs) was successfully prepared by direct pyrolysis of high-surface-area microporous imine-linked polymer (ILP, 744 m<sup>2</sup>/g) which was formed using commercial starting materials based on the Schiff base condensation under catalyst-free conditions. These NCs have moderate specific surface areas of up to 366 m<sup>2</sup>/g, pore volumes of 0.43 cm<sup>3</sup>/g, narrow micropore size distributions, and a high density of nitrogen functional groups (5.58–8.74%). The resulting NCs are highly suitable for CO<sub>2</sub> capture adsorbents because of their microporous textural properties and large amount of Lewis basic sites. At 1 bar, NC-800 prepared by the pyrolysis of ILP at 800 °C showed the highest CO<sub>2</sub> uptakes of 1.95 and 2.65 mmol/g at 25 and 0 °C, respectively. The calculated adsorption capacity for CO<sub>2</sub> per m<sup>2</sup> (μmol of CO<sub>2</sub>/m<sup>2</sup>) of NC-800 is 7.41 μmol of CO<sub>2</sub>/m<sup>2</sup> at 1 bar and 25 °C, the highest ever reported for porous carbon adsorbents. The isosteric heats of CO<sub>2</sub> adsorption (<i>Q</i><sub>st</sub>) for these NCs are as high as 49 kJ/mol at low CO<sub>2</sub> surface coverage, and still ∼25 kJ/mol even at high CO<sub>2</sub> uptake (2.0 mmol/g), respectively. Furthermore, these NCs also exhibit high stability, excellent adsorption selectivity for CO<sub>2</sub> over N<sub>2</sub>, and easy regeneration and reuse without any evident loss of CO<sub>2</sub> adsorption capacity

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