Exploring the stability and catalytic activity of monoethanolamine functionalized CuO electrode in electrochemical CO reduction.

Electrochemical carbon dioxide reduction reactions (eCORR) have emerged as promising strategies for both mitigating CO emissions and converting them into valuable products. Despite the promise, challenges such as stability, efficiency, and availability of CO on the electrode surface, especially at high current densities, still need to be overcome. Herein, this study explores the precipitation of CuO nanoparticles with monoethanolamine to preserve nitrogen groups on the surface of the material.

A building blocks strategy for preparing photocatalytically active anatase TiO/rutile SnO heterostructures by hydrothermal annealing.

Effective heterostructures for photocatalysis need to present good electron-hole mobility among phases, a feature that is only attained with satisfactory interface quality. For very small sizes and with a stable colloidal state, the oriented attachment mechanism can be used to prepare suitable structures by means of a building blocks strategy, whereby preformed nanoparticles are used to control the desired amount of each phase in the heterostructure. Here, we show the success of this strategy for anatase TiO/rutile SnO heterostructures, applying conventional hydrothermal annealing, where successive collisions among particles increase the probability of oriented attachment.

An Understanding of the Photocatalytic Properties and Pollutant Degradation Mechanism of SrTiO3 Nanoparticles.

Strontium titanate nanoparticles have attracted much attention due to their physical and chemical properties, especially as photocatalysts under ultraviolet irradiation. In this paper, we analyze the effect of heating rate during the crystallization process of SrTiO3 nanoparticles in the degradation of organic pollutants. The relationship between structural, morphological and photocatalytic properties of the SrTiO3 nanoparticles was investigated using different techniques.

The Role of the Relative Dye/Photocatalyst Concentration in TiO2 Assisted Photodegradation Process.

Despite photocatalytic degradation is studied generally focusing the catalyst, its interaction with the contaminant molecule plays a fundamental role in the efficiency of that process. Then, we proposed a comparative study about the photodegradation of two well-known dyes, with different acidity/basicity - Methylene Blue (MB) and Rhodamine B (RhB), catalyzed by TiO2 nanoparticles, varying both dye and photocatalyst concentrations. The results showed that the amphoteric character of MB molecules, even in a range of concentration of 5.