In the present work, binder-free CoS_x–graphene nanoplatelets porous structures were coated on Ni(OH)₂ nanosheets using a one-step electrodeposition process. The graphene was produced from the electroreduction of CO2∗ intermediates during the electrodeposition of CoS_x. The surface morphology and interfacial bonding states of CoS_x–graphene@Ni(OH)₂ were sensitive to the deposition time and Co–to–thiourea molar ratio (M_r). The interface reconstruction between CoS_x–graphene NCs and Ni(OH)₂ nanosheets improved the pseudocapacitance performance, which was investigated at different M_r and varying deposition times. Raman spectra verified the presence of graphene and CoS_x mixed phases in all heterostructure electrodes, where CoS₂ was dominant at M_r = 0.2. An XPS analysis indicated the evolution of various interfacial bonding states (CO, CO, CoONi, and SO) between Ni(OH)₂ nanosheets and CoS_x-graphene nanoplatelets, revealing the improvement in the interfacial synergy and concentration of electroactive sites. The hybrid CoS_x-graphene@Ni(OH)₂ NCs at M_r = 0.2 exhibited the highest capacitance of 2116 F∙g⁻¹ at 2 mV∙s⁻¹ and 1618 F∙g⁻¹ at 1 A∙g⁻¹ compared with bare Ni(OH)₂, which achieved 1212 F∙g⁻¹ at 2 mV∙s⁻¹ and 882.88 F∙g⁻¹ at 1 A∙g⁻¹, and other NCs. Bare Ni(OH)₂ nanosheets retained only capacitance retention of 25 % after 2000 cycles, which improved to 70 % in all CoS_x-graphene@Ni(OH)₂ nanoplatelets.

The extensive use of nanoparticles (NPs) in diverse applications causes their localization to aquatic habitats, affecting the metabolic products of primary producers in aquatic ecosystems, such as algae. Synthesized calcium oxide nanoparticles (CaO NPs) are of the scarcely studied NPs. Thus, the current work proposed that the exposure to CaO NPs may instigate metabolic pathway to be higher than that of normally growing algae, and positively stimulate algal biomass. In this respect, this research was undertaken to study the exposure effect of CaO NPs (0, 20, 40, 60, 80, and 100 µg mL^-1) on the growth, photosynthesis, respiration, oxidative stress, antioxidants, and lipid production of the microalga Coccomyxa chodatii SAG 216-2. The results showed that the algal growth concomitant with chlorophyll content, photosynthesis, and calcium content increased in response to CaO NPs. The contents of biomolecules …