Solar-driven aromatic aldehydes: green production from mandelic acid derivatives by a Co(ii)/C 3 N 4 combined catalyst in aqueous media.
Mi WuHongzhao WangHaifang MaoChaoyang WangZhenbiao DongTing TangWei ZhengLehong JinJi-Bo LiuPublished in: RSC advances (2022)
According to the requirements for sustainable development, reclaiming fine chemicals from wastewater under mild conditions is an extremely significant line of research. A low-cost and high-efficiency polydentate chelate- and polymeric Co(ii)-based complex (Co-L)-loaded C 3 N 4 photocatalyst (Co-L/C 3 N 4 ) was constructed and used to convert aromatic mandelic acids in wastewater at room temperature. The BET specific surface area increased from 28 m 2 g -1 to 68 m 2 g -1 , indicating its excellent absorptive character. The light absorption range of Co-L/C 3 N 4 reached 650 nm, while the band energy reduced to 2.30 eV, which caused a significant enhancement in photocatalytic activity. The conversion of substituted mandelic acids was more than 90% due to the photoactivity of Co-L/C 3 N 4 . Time-resolved PL spectra indicated the remarkable separation of the photogenerated electron-hole pairs in Co-L/C 3 N 4 . Furthermore, the UV-vis and in situ FTIR spectra indicated the formation of aldehyde groups in the selective oxidation process, which provided support for the plausible catalytic mechanism.
Keyphrases
- room temperature
- low cost
- visible light
- high efficiency
- wastewater treatment
- ionic liquid
- drug delivery
- highly efficient
- cancer therapy
- amino acid
- density functional theory
- solar cells
- air pollution
- anaerobic digestion
- reduced graphene oxide
- photodynamic therapy
- hydrogen peroxide
- drug release
- mass spectrometry
- structure activity relationship