Cu/Biochar Bifunctional Catalytic Removal of COS and H 2 S:H 2 O Dissociation and CuO Anchoring Enhanced by Pyridine N.
Xiang LiXueqian WangLi YuanLanglang WangYixing MaRui CaoYibing XieYiran XiongPing NingPublished in: Environmental science & technology (2024)
Economic and environmentally friendly strategies are needed to promote the bifunctional catalytic removal of carbonyl sulfide (COS) by hydrolysis and hydrogen sulfide (H 2 S) by oxidation. N doping is considered to be an effective strategy, but the essential and intrinsic role of N dopants in catalysts is still not well understood. Herein, the conjugation of urea and biochar during Cu/biochar annealing produced pyridine N, which increased the combined COS/H 2 S capacity of the catalyst from 260.7 to 374.8 mg·g -1 and enhanced the turnover frequency of H 2 S from 2.50 × 10 -4 to 5.35 × 10 -4 s -1 . The nucleophilic nature of pyridine N enhances the moderate basic sites of the catalyst, enabling the attack of protons and strong H 2 O dissociation. Moreover, pyridine N also forms cavity sites that anchor CuO, improving Cu dispersion and generating more reactive oxygen species. By providing original insight into the pyridine N-induced bifunctional catalytic removal of COS/H 2 S in a slightly oxygenated and humid atmosphere, this study offers valuable guidance for further C═S and C-S bond-breaking in the degradation of sulfur-containing pollutants.
Keyphrases
- metal organic framework
- highly efficient
- heavy metals
- anaerobic digestion
- sewage sludge
- reactive oxygen species
- electron transfer
- crystal structure
- risk assessment
- organic matter
- aqueous solution
- hydrogen peroxide
- high intensity
- diabetic rats
- carbon dioxide
- high glucose
- endothelial cells
- body composition
- nitric oxide