상세 보기
- Lee, Mi Gyoung;
- Yang, Jin Wook;
- Park, Ik Jae;
- Lee, Tae Hyung;
- Park, Hoonkee;
- 외 8명
WEB OF SCIENCE
45SCOPUS
40초록
The development of new heterostructures with high photoactivity is a breakthrough for the limitation of solar-driven water splitting. Here, we first introduce indium oxide (In2O3) nanorods (NRs) as a novel electron transport layer for bismuth vanadate (BiVO4) with a short charge diffusion length. In2O3 NRs reinforce the electron transport and hole blocking of BiVO4, surpassing the state-of-the-art photoelectrochemical performances of BiVO4-based photoanodes. Also, a tannin-nickel-iron complex (TANF) is used as an oxygen evolution catalyst to speed up the reaction kinetics. The final TANF/BiVO4/In2O3 NR photoanode generates photocurrent densities of 7.1 mA cm(-2) in sulfite oxidation and 4.2 mA cm(-2) in water oxidation at 1.23 V versus the reversible hydrogen electrode. Furthermore, the "artificial leaf," which is a tandem cell with a perovskite/silicon solar cell, shows a solar-to-hydrogen conversion efficiency of 6.2% for unbiased solar water splitting. We reveal significant advances in the photoactivity of TANF/BiVO4/In2O3 NRs from the tailored nanostructure and band structure for charge dynamics.
키워드
- 제목
- Tailored BiVO4/In2O3 nanostructures with boosted charge separation ability toward unassisted water splitting
- 저자
- Lee, Mi Gyoung; Yang, Jin Wook; Park, Ik Jae; Lee, Tae Hyung; Park, Hoonkee; Cheon, Woo Seok; Lee, Sol A.; Lee, Hyungsoo; Ji, Su Geun; Suh, Jun Min; Moon, Jooho; Kim, Jin Young; Jang, Ho Won
- DOI
- 10.1002/cey2.321
- 발행일
- 2023-06
- 유형
- Article
- 저널명
- CARBON ENERGY
- 권
- 5
- 호
- 6