Controlled morphological synthesis of temperature-dependent CuO nanostructures and their effect on photocatalytic performance

Abstract: With the development of the times, more and more pollutants such as dyes produced by industry have inevitably caused harm to human health. Dyes are complex and stable in structure, and traditional methods of physically and chemically processing dyes have been proven to be inefficient. The heterogeneous photocatalytic technology has been widely regarded as one of the most promising processes for the treatment of harmful organic wastewater. In this paper, copper oxide (CuO) nanomaterials were synthesized via a h… Show more

“…According to the degradation efficacy values, a minor increase in reaction rate is brought on by a rise in temperature. The moderate increase in photocatalytic degradation caused by raising the temperature may be caused by an increase in molecular collision frequency [86]. Higher temperatures may also cause the contaminated molecules to turn into disabled from the catalyst surface, reducing the rate of reaction.…”

A review of new developments in the synthesis of CuO nanoparticles via plant extracts for enhancing the photocatalytic activity

“…According to the degradation efficacy values, a minor increase in reaction rate is brought on by a rise in temperature. The moderate increase in photocatalytic degradation caused by raising the temperature may be caused by an increase in molecular collision frequency [86]. Higher temperatures may also cause the contaminated molecules to turn into disabled from the catalyst surface, reducing the rate of reaction.…”

A review of new developments in the synthesis of CuO nanoparticles via plant extracts for enhancing the photocatalytic activity