A boron nitride–carbon composite derived from ammonia borane and ZIF-8 with promises for the adsorption of carbon dioxide
Résumé
In the present study, we report the synthesis, characterization and assessment of the carbon dioxide adsorption capacity of a composite made of boron nitride and carbon. The material is obtained through a two-step process. In the initial step, ammonia borane is introduced into the pores of a zeolitic imidazolate framework (ZIF-8) using a novel one-pot synthesis method. The ZIF-8 is formed in situ around the ammonia borane molecules, eliminating the need for an infiltration step. The successful confinement of ammonia borane within the ZIF-8 structure is verified through different characterization techniques (IR, XRD, TGA-DSC, and 11 B MAS NMR). In the second step, ZIF-8 containing confined ammonia borane is pyrolyzed. Ammonia borane acts as a precursor of boron nitride and the process results in a composite comprising carbon, boron and nitrogen. The composite was subsequently characterized and evaluated as a potential adsorbent for carbon dioxide. With a specific surface area of 56 m2 g1, the composite demonstrates a CO2 uptake of 1.94 mmol g1 (or 85.4 mg g1) when exposed to 1.5 bar of CO2 at 30 1C. This value surpasses reported capacities of other boron nitride-based materials as CO2 adsorbents. When comparing the CO2 adsorption capacity in terms of the specific surface area, a significant enhancement is observed (34 x 10-3 mmol m-2). This suggests that the material provides more active sites for CO2 adsorption, such as polarized B–C, B–N, and C–N bonds. This key factor may be even more important than having a large specific surface area. Therefore, the potential for developing new boron-based materials with enhanced CO2 adsorption capacities lies in increasing both specific surface area and active sites.
Domaines
Chimie
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