Copper(II) imidazolate frameworks as highly efficient photocatalysts for reduction of CO2 into methanol under visible light irradiation

Three copper(II) imidazolate frameworks were synthesized by a hydrothermal (or precipitation) reaction. The catalysts were characterized by X-ray diffraction (XRD), nitrogen adsorption, transmission electron microscopy (TEM), ultraviolet–visible spectroscopy (UV–vis), Fourier transform infrared spectra (FTIR), thermogravimetry (TG). Meanwhile, the photocatalytic activities of the samples for reduction of CO2 into methanol and degradation of methylene blue (MB) under visible light irradiation were also investigated. The results show that the as-prepared samples exhibit better photocatalytic activities for the reduction of carbon dioxide into methanol with water and degradation of MB under visible light irradiation. The orthorhombic copper(II) imidazolate frameworks with a band gap of 2.49eV and green (G) color has the best photocatalytic activity for reduction of CO2 into methanol, 1712.7μmol/g over 5h, which is about three times as large as that of monoclinic copper(II) imidazolate frameworks with a band gap 2.70eV and blue (J) color. The degradation kinetics of MB over three photocatalysts fitted well to the apparent first-order rate equation and the apparent rate constants for the degradation of MB over G, J and P (with pink color) are 0.0038, 0.0013 and 0.0016min−1, respectively. The synergistic effects of smallest band gap and orthorhombic crystal phase structure are the critical factors for the better photocatalytic activities of G. Moreover, three frameworks can also be stable up to 250°C. The investigation of Cu-based zeolitic imidazolate frameworks maybe provide a design strategy for a new class of photocatalysts applied in degradation of contaminations, reduction of CO2, and even water splitting into hydrogen and oxygen under visible light. Carbon dioxide was reduced into methanol with water over copper(II) imidazolate frameworks under visible light irradiation. [Display omitted] •Three copper(II) imidazolate frameworks were first applied in the photo-reduction of CO2.•The photocatalytic activities of the frameworks depend on their band gap and phase structures.•The photocatalytic activity of orthorhombic frameworks is 3 times that of monoclinic frameworks.•The degradation kinetics of MB over three photocatalysts followed the first-order rate equation.•The largest yield for reduction of CO2 into methanol on green framworks was 1712.7μmol/g over 5h.