Microporous carbons derived from melamine and isophthalaldehyde: One-pot condensation and activation in a molten salt medium for efficient gas adsorption

摘要

In the present work, mixture of melamine and isophthalaldehyde undergo simultaneous polymerization, carbonization, and in situ activation in the presence of molten salt media through a single all-in-one route to design microporous carbons with high specific surface areas (~3000?m2/g). The effect of the activation temperature and molten salts on the polymerization process and final texture of the carbon was explored. Carbon materials prepared at 700?°C, in the presence of KOH (referred as MIK-700), exhibited a narrower pore-size distribution ~1.05?nm than those prepared in the presence of the eutectic KOH-NaOH mixture (MIKN). Additionally, MIK-700 possesses an optimum micropore volume (1.33?cm3/g) along with a high nitrogen content (2.66?wt%), resulting in the excellent CO2 adsorption capacity of 9.7?mmol/g at 273?K and 1?bar. Similarly, the high specific area and highest total pore volume play an important role in H2 storage at 77?K, with 4.0?wt% uptake by MIKN-800 (specific surface area and pore volume of 2984?m2/g and 1.98?cm3/g, respectively.) Thus, the facile one-step solvent-free synthesis and activation strategy is an economically favorable avenue for designing microporous carbons as an efficient gas adsorbents.