Electrochemical deposition of mesoporous nickel hydroxide films from dilute surfactant solutions

A series of micelle-templated mesoporous nickel hydroxide films were prepared by electrochemical deposition from dilute surfactant solutions by using different types of template and by varying plating solvent composition. Lamellar mesostructured Ni(OH)(2) films are obtained with only anionic surfactant sodium dodecyl sulfate (SIDS) as the template. In particular, a unique cooperative assembly fashion, that is, the combination between Ni2+ and a complex composed of the primary template SIDS and a cosurfactant, such as triblock poly(ethylene oxide)-poly(propylene oxide)-poly(ethylene oxide) (PEO-PPO-PEO) copolymers and poly(ethylene glycol), was explored, by which two-dimensional hexagonal mesoporous Ni(OH)(2) films were electrodeposited. Meanwhile, the deposition medium also plays a crucial role in determining the mesostructure of Ni(OH)(2) films. For the composite nickel hydroxide films deposited from aqueous solution or dilute aqueous solution of ethylene glycol (< 20 wt %) in the presence of SIDS or the SIDS-poly(alkylene oxide) polymer complexes, a mixed lamellar phase with d(001) = 37.4 angstrom and d(001) = 28.5 A was obtained. However, single lamellar phase with d(001) = 37.4 angstrom was electrodeposited from concentrated aqueous solutions of ethylene glycol (>= 20 wt %). Furthermore, such deposition baths have access to hexagonal mesoporous nickel hydroxide films with d(100) = 37.4 angstrom at 70 degrees C with the SDS-poly(alkylene oxide) polymer complexes as the templates. Within the potential window for Ni(OH)(2), the morphology and quality of mesostructured films are significantly dependent on the deposition potential, while the mesostructures of the composite films always remain unchanged.