首页|Facile fabrication of flower-like NH2-UIO-66/BiOCl Z-scheme heterojunctions with largely improved photocatalytic performance for removal of tetracycline under solar irradiation
Facile fabrication of flower-like NH2-UIO-66/BiOCl Z-scheme heterojunctions with largely improved photocatalytic performance for removal of tetracycline under solar irradiation
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NSTL
Elsevier
A novel Z-scheme 3D flower-like NH2-UIO-66/BiOCl composite was fabricated by a facile solvothermal method. The structural characterization results demonstrate that NH2-UIO-66 is embedded on the smooth surface of the flower-like BiOCl, forming a tight contact interface. As a visible light collector, NH2-UIO-66 expands the optical absorption range of BiOCl, which is confirmed by the UV-Vis diffuse reflectance spectra (DRS). By combining UV-Vis DRS, Mott-Schottky (MS) plots and VB-XPS, a well-matched band structure between NH2-UIO-66 and BiOCl is obtained. Photoelectrochemical characterizations indicate that the synergistic effect between NH2-UIO-66 and BiOCl interfaces facilitates the separation and transfer of photogenerated electron-hole pairs. In the case of photocatalytic performance experiments, the removal efficiency of the prepared NU66/BOC composites for TC-HCl was higher than either NH2-UIO-66 or BiOCl under simulated solar irradiation. NU66/BOC-20 exhibited the best performance with Kapp value (0.01269 min?1), which is 84 and 3 times more than the pristine NH2-UIO-66 (0.00015 min?1) and BiOCl (0.00410 min?1), respectively. In addition, NU66/BOC-20 composite demonstrates remarkable stability with a TC-HCl removal rate of 83% in the third cycle. The radical quenching experiments indicate that the primary active species is superoxide radicals (·O2?) while holes (h+) play a role to some extent. Based on the above experimental results and in-situ irradiated XPS, Z-scheme was proposed to explain the electron transfer pathway in the photocatalytic process.
3D flower-like BiOClNH2-UIO-66PhotodegradationZ-scheme
Xu F.、Zhang Q.、An R.、Li L.、Zhou L.
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College of Chemistry and Chemical Engineering Ocean University of China
NSTL
Elsevier
