Qiong Wu,

                                                                                            School of Environmental Science

                                                                                                             Youtao Song, 

                                             International Engineering Technology Research Institute of Urban and Energy Environment

Photo-induced electron-hole pair recombination, light response ability and surface property of photocatalyst greatly affect its activity. In this paper, a p-n junction ZnIn₂S_4/NiFe₂O₄ with biochar (ZIS/NFO/BC) was prepared, presenting improved charge carrier mobility, excellent light absorption and hierarchical porous microstructure. ZIS/NFO/BC exhibited good photodegradation efficiency and TOC removal rate towards doxycycline hydrochloride under simulated sunlight, as well as good stability and reusability after six cycles. Biochar inhibited the agglomeration of nanoparticles, improved charge carrier mobility and light absorption ability. The synergy between adsorption of biochar and photocatalytic degradation of p-n junction greatly promoted photo degradation efficiency. Photo-induced holes (h⁺) played a major role during photodegradation. The effects of pH, coexisting ions (Cl^-, NO₃ ^–, CO₃ ^2–) and humic acid on photodegradation were investigated. Furthermore, the photodegradation mechanism was proposed and possible pathway was illustrated. This work provides new route for the development of magnetic recyclable photocatalyst with high potential for wastewater treatment.

Read the full article here:           54-Enhanced interfacial charge migration through fabrication of p-n junction in ZnIn2S4-NiFe2O4-biochar composite for photocatalytic doxycycline hydrochloride degradation.pdf