Synthesis and characterization of assorted pH CdSe quantum dots by solvo-thermal method to determine its dye-degradation application

The study comprises the synthesis and characterization of CdSe quantum dots by the solvothermal method. The CdSe quantum dots are prepared by varying pH from 5 to10. The pH variation was done by the addition of the glacial acetic acid dropwise. The TEM characterization confirmed the average particle size as 9.65 nm. The average band gap, calculated using a Tauc plot, was obtained as 3.25 eV. The average crystallite size is confirmed by XRD as 6.93 nm. The pH 5 CdSe nanoparticles took the least time to degrade the dye water which was confirmed by UV-visible spectrophotometer.

Automated summary

The study focuses on the synthesis and characterization of CdSe quantum dots using the solvothermal method. CdSe quantum dots were prepared by adjusting the pH value from 5 to 10, with glacial acetic acid added dropwise. The TEM characterization revealed an average particle size of 9.65 nm. The average band gap was calculated as 3.25 eV using a Tauc plot. XRD confirmed an average crystallite size of 6.93 nm. The CdSe nanoparticles at pH 5 exhibited the fastest degradation of dye water, as confirmed by UV-visible spectrophotometer.