Removal of Anthropogenic Toxic Gaseous Compounds from Indoor using Biomass-based Graphene Aerogels

The efficient capture of HCHO, tobacco smoke, and anthropogenic toxic pollutants is of paramount importance to mitigate indoor air pollution and protect the general population. Ultralight N-doped graphene aerogel (N-GA) with a three-dimensional (3D) honeycomb-like coarse-pore structure is synthesized from biomass (pear). By taking advantage of the micrometer-sized honeycomb pores, 3D interconnected porous structure, hierarchical pores, large pore volume (0.81 cm³ g^–1), highly accessible surface area (1582 m² g^–1), and heteroatom-enriched (1.89% of N and 9.88% of O) nature, the N-GA offered high adsorption of the toxic gaseous compounds (TGCs). The as-synthesized N-GA without any further chemical/physical treatment exhibits an excellent adsorption-based capture of TGCs such as HCHO (996.7 mg g^–1), ethanol (611 mg g^–1), tobacco smoke (523.8 mg g^–1), benzene (482.3 mg g^–1), toluene (392 mg g^–1), and carbon dioxide (365.3 mg g^–1). Moreover, N-GA, as a low-cost and renewable adsorbent, exhibits high recyclability and long-term adsorption efficiency. These results demonstrate the potential of N-GA as an unprecedented candidate to design high-performance adsorbents for TGCs, suggesting a great application potential in air filters to control both indoor and outdoor air pollution.