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Novel microbial synthesis of Cu doped LaCoO3 photocatalyst and its high efficient hydrogen production from formaldehyde solution under visible light irradiation

2014; Elsevier BV; Volume: 140; Linguagem: Inglês

10.1016/j.fuel.2014.09.107

1873-7153

Liqing Wang, Qi Pang, Qianqian Song, Xinwei Pan, Lishan Jia,

Copper-based nanomaterials and applications

Cu doped LaCoO3 photocatalyst by microbial synthesis (M-LaCo0.7Cu0.3O3), using the extract of Pichia pastoris GS115, presents an outstanding photocatalytic performance for hydrogen production from formaldehyde solution. The structure and physicochemical properties of the photocatalyst were characterized by XRD, EDS, XPS, FTIR, Photoluminescence (PL), and UV–vis (DRS). The results indicate that copper doping contributes to the formation of impurity level and appropriate oxygen vacancy. Differing from separate citric acid complexation with metal ions, biomass intervention in preparation process can help adjust the crystal structure and surface structure of catalyst, which makes the diffraction angle and unit cell change and simultaneously modulates surface oxygen defects. Furthermore, some organic functional groups from biomass residue on the surface act as photosensitizer, so that the M-LaCo0.7Cu0.3O3 markedly absorbs the visible light and shows higher absorbance than LaCo0.7Cu0.3O3 and LaCoO3. Consequently, M-LaCo0.7Cu0.3O3 exhibits the highest rate of photocatalytic hydrogen production (1.13 mmol h−1 g−1). This research provides a new way for designing and developing visible-light active materials using biomass.