Photoelectrical and charge transfer properties of hydrogen- evolving TiO_2 nanotube arrays electrodes annealed in different gases

摘要

TiO_2 nanotube arrays were fabricated by sonoelectrochemical anodic oxidation and calcined in nitrogen, air, or 5% hydrogenitrogen which was denoted as TNT-A, TNT-N, and TNT-H, respectively. All annealed TiO_2 nanotube arrays samples exhibited similar surface morphology. With UV illumination (365 ± 15 nm), the photocurrent density of the TNT-A, TNT-N and TNT-H was about 0.27 mA/cm~2, 0.45 mA/cm~2 and 0.60 mA/cm~2, respectively. The trapped electron at the Ti~(4+) center of TiO_2 nanotube arrays shows absorption at around 500-700 nm. From the XPS measurement, it was found that annealing in 5% hydrogenitrogen helped the sample obtain a greater defect density. Because of the reduction of Ti4+ and the formation of oxygen vacancies, the charge transfer resistance appeared in this order: TNT-A > TNT-N > TNT-H. Thus TNT-H harvested the greatest charge carrier density of 9.86 × 10~(20) cm~(-3), TNT-N and TNT-A obtained a charge carrier density of 1.38 × 10~(20) cm~(-3) and 1.06 x 10~(20) cm~(-3), respectively. Accordingly, the hydrogen production rate by water splitting over TNT-A, TNT-N and TNT-H (320-780 nm irradiation, 3 h) was about 120 μL/h cm~2, 159 μL/h cm~2 and 231μL/h cm~2, respectively.