Materials based on CdS /MgO nanocomposites applied in the photocatalytic hydrogen generation

The synergy between a semiconductor as CdS and an insulator as MgO was approached to improve the photocatalytic H₂ evolution. Commercial MgO, nitrate magnesium, and carbonate magnesium as Mg precursor of MgO were evaluated in the obtaining of CdS/MgO nanocomposites and their photocatalytic activity. Synthesis of CdS/MgO nanocomposites and its photoactivity as a function of the Mg precursor were sensitive to the MgO structure. A dependence of the mixture of MgO and Mg(OH)₂ phases, and the crystallite size in [2 0 0] (D_{(2 0 0)}) and [2 2 0] (D_{(2 2 0)}) crystallographic directions, in MgO cubic phase, was discovered after X ray diffraction (XRD) analyses. HRTEM images revealed the formation of a composite of CdS nanofibers over MgO and their distribution by mapping elemental analysis. Photoactivation was attributed to CdS under blue light demonstrated by diffuse reflectance spectroscopy (DRS). The photoactivity increased as function of the MgO support: MgO commercial ((∼3 mmol_H2 g^− 1_CdS h^− 1) < MgO nitrate (∼8 mmol_H2 g^− 1_CdS h^− 1) < MgO carbonate (∼28 mmol_H2 g^− 1_CdS h^− 1). The photocatalytic activity as function of the MgO precursor was correlated with the mixture of MgO/Mg(OH)₂ phases as well as the D_{(2 0 0)} and D_{(2 2 0)} crystallite size of MgO cubic phase.