New functional hybrid materials based on clay minerals for enhanced electrocatalytic activity

•Montmorillonite functionalized with LaMnO3 were carried out for the first time.•By functionalization, physico-chemical properties of hybrid materials are improved.•HER and OER catalytic properties of electrodes modified have been studied. [Display omitted] Hybrid materials based on montmorillonite functionalized with LaMnO3 perovskitic structures were obtained for the first time by ultrasonic method with sonotrode immersed in the reaction medium, followed by heat treatment at a temperature of 600 °C. The clay mineral montmorillonite (Mmt), sodium montmorillonite (Mmt-Na+) and functionalized material (Mmt-LMO) were characterized by X-ray diffraction (XRD), Fourier transform-infrared spectroscopy (FT-IR), and scanning electron microscopy (SEM/Edx) techniques. The XRD patterns of Mmt-LMO composites show both the presence of the perovskitic phase with orthorhombic structure, and a mixture of aluminosilicates, corresponding to the montmorillonite clay minerals. The (Mmt), (Mmt-Na+) minerals and (Mmt-LMO) hybrid material were used to manufacture modified electrodes whose catalytic properties for the oxygen and hydrogen evolution reactions were investigated in alkaline medium. Based on electrochemical experimental results, some of these electrodes are catalytically active toward the hydrogen evolution reaction and the more performant ones were investigated further and it was found that the electrode modified with the composition containing 6 mg LaMnO3 functionalized montmorillonite and 10 µL Nafion solutions have the best electrocatalytic properties. At the current density of −10 mA/cm2 the electrode exhibits an over potentialfor hydrogen evolution of −0.48 V and its Tafel slope was measured to be 70 mV/dec. This study complements the extant scientific knowledge relevant to the water splitting domain.