Nickel Doped Carbon Nitride for the Photoelectrochemical Degradation of a Sunscreen derived Organic Pollutant Found in Swimming Pool Waters
Abstract
The
fabrication and consumption of sun care products has increased exponentially
the concentration of organic UV filters in the oceans and seas, which represents a
threat to the marine environment The present research project aims to explore the
viability of using nickel doped carbon nitride (Ni CN) as a photoelectrocatalytic
material to degrade 4 aminobenzoic acid ( one of the most used organic UV
filters, today For this purpose, several electrodes has been prepared by drop
casting employing Ni CN catalysts (possessing different Ni contents), and different
substrates including unmodified fluorine doped tin oxide ( coated glass, and
FTO coated glass with a metallic thin films of Zn, Mn or Ni on it surface
Preliminary results indicate that a ll the fabricated electrodes exhibited higher
current densities under irradiation of visible light, corroborating the photo
responsive nature of these CN based materials The catalyst prepared using the
highest amount of Ni precursor salt 8 X material) exhibited the highest current
density during the linear sweep voltammetry experiments In contrast, the
electrode prepared using the 0 X material (CN without Ni) exhibited the lowest
current density, indicating that the amount Ni contained in the CN has a significant
effect on the photoelectrocatalytic properties of the fabricated electrodes
Photoelectrochemical degradation experiments revealed PABA degradations about
50 when using some of fabricated the electrodes