4.8 Article

Photoelectrochemical Behavior and Computational Insights for Pristine and Doped NdFeO3 Thin-Film Photocathodes

期刊

ACS APPLIED MATERIALS & INTERFACES
卷 13, 期 12, 页码 14150-14159

出版社

AMER CHEMICAL SOC
DOI: 10.1021/acsami.0c21792

关键词

NdFeO3; photoelectrochemistry; doping; photocathode; DFT

资金

  1. FEDER/Ministerio de Ciencia e Innovacion-Agencia Estatal de Investigacion [RTI2018-102061-B-I00]
  2. Generalitat Valenciana [PROMETEO/2020/089]
  3. Ministerio de Educacion, Cultura y Deporte (MECD)
  4. [FPU15/02005]
  5. [FPU16/02492]

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The study demonstrates that transparent NdFeO3 thin-film photocathodes are successfully prepared using a citric acid-based sol-gel procedure and thermal treatment in air. Doping with Mg2+ and Zn2+ significantly enhances the photoelectrocatalytic performance of NdFeO3.
Among the different strategies that are being developed to solve the current energy challenge, harvesting energy directly from sunlight through a tandem photoelectrochemical cell (water splitting) is most attractive. Its implementation requires the development of stable and efficient photocathodes, NdFeO3 being a suitable candidate among ternary oxides. In this study, transparent NdFeO3 thin-film photocathodes have been successfully prepared by a citric acid-based sol-gel procedure, followed by thermal treatment in air at 640 degrees C. These electrodes show photocurrents for both the hydrogen evolution and oxygen reduction reactions. Doping with Mg2+ and Zn2+ has been observed to significantly enhance the photoelectrocatalytic performance of NdFeO3 toward oxygen reduction. Magnesium is slightly more efficient as a dopant than Zn, leading to a multiplication of the photocurrent by a factor of 4-5 for a doping level of 5 at % (with respect to iron atoms). This same trend is observed for hydrogen evolution. The beneficial effect of doping is primarily attributed to an increase in the density and a change in the nature of the majority charge carriers. DFT calculations help to rationalize the behavior of NdFeO3 by pointing to the importance of nanostructuring and doping. All in all, NdFeO3 has the potential to be used as a photocathode in photoelectrochemical applications, although efforts should be directed to limit surface recombination.

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