Controlled synthesis of CuO nanostructures by a simple solution route

## Abstract The controlled synthesis of hierarchical CuO nanomaterials in a solution phase has been realized with high yield at low temperature using copper acetate hydrate and NaOH as starting materials with the assistance of surfactant under hydrothermal conditions. X‐ray diffraction (XRD), scann

## Abstract The controlled synthesis of one‐dimensional, two dimensional, and three‐dimensional CuO nanostructures has been achieved by a hydrothermal process in the presence of sodium citrate (SC) by simply controlling the reaction conditions. When the molar ratio of sodium citrate to CuSO~4~**·**

CuO have potential applications in various fields, such as gas sensors, solar energy and catalysis. With the aim of trying to obtain CuO with a high specific surface area, an oxalate precipitation route followed by thermal decomposition was studied. Four different copper salts (nitrate, sulfate, chl

CuO nanostructures at different morphologies were synthesized in controlled manner using a simple lowtemperature solvothermal technique. Controlling the pH of content the reaction mixture, nanoparticles, nanorods and nanocloud CuO structures were synthesized at temperature of 100-150 1C with excelle

## Abstract Tin monoxide (SnO) nanosheets 5 nm in thickness are generated on substrates through an aqueous solution process under mild conditions. Parallel control of the oxidation state and morphology is achieved by a urea‐mediated approach in aqueous solution. The SnO nanosheets form a porous thi