Improving photoelectrochemical performance by building Fe{sub 2}O{sub 3} heterostructure on TiO{sub 2} nanorod arrays

Cao, Chunlan; Hu, Chenguo; Shen, Weidong; Wang, Shuxia; Song, Sihong; Wang, Mingjun

doi:10.1016/J.MATERRESBULL.2015.04.036

Improving photoelectrochemical performance by building Fe{sub 2}O{sub 3} heterostructure on TiO{sub 2} nanorod arrays

Journal Article · Thu Oct 15 04:00:00 EDT 2015 · Materials Research Bulletin

DOI:https://doi.org/10.1016/J.MATERRESBULL.2015.04.036· OSTI ID:22475898

Cao, Chunlan ^[1]; Hu, Chenguo ^[1]; Shen, Weidong ^[2]; Wang, Shuxia ^[1]; Song, Sihong ^[2]; Wang, Mingjun ^[1]

Department of Applied Physics, Chongqing University, Chongqing 400044 (China)
Key Laboratory of Special Power Supply, Chongqing Communication Institute, Chongqing 400035 (China)

Highlights: • Fe{sub 2}O{sub 3}@TiO{sub 2} heterostructure was fabricated by two-step method. • The photoelectrochemical properties were studied upon visible light irradiation. • Fe{sub 2}O{sub 3}@TiO{sub 2} heterostructure shows superior photoelectrochemical property. • A possible mechanism for enhanced photoelectrochemical property was put forward. - Abstract: Fe{sub 2}O{sub 3}@TiO{sub 2} heterostructure nanorod arrays were synthesized on a fluorine-doped tin oxide conductive (FTO) glass substrate via two-step method for improving photoelectrochemical activity of TiO{sub 2}. The TiO{sub 2} nanorod arrays on FTO substrate were first prepared by hydrothermal method and then Fe{sub 2}O{sub 3} nanoparticles were coated onto the surface of TiO{sub 2} nanorod arrays through chemical bath deposition. The heterojunction yielded a photocurrent density of 39.75 μA cm{sup −2} at a bias potential of 0 V (vs. Ag/AgCl) under visible light irradiation, which is 2.2 times as much as that produced by the pure TiO{sub 2} nanorod arrays. The enhanced photoelectrochemical activity is attributed to the extension of the light response range and efficient separation of photogenerated carriers. Our results have demonstrated the advantage of the novel Fe{sub 2}O{sub 3}@TiO{sub 2} heterojunction and will provide a new path to the fabrication of heterostructural materials.

OSTI ID:: 22475898

Journal Information:: Materials Research Bulletin, Journal Name: Materials Research Bulletin Vol. 70; ISSN MRBUAC; ISSN 0025-5408

Country of Publication:: United States

Language:: English

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Related Subjects

77 NANOSCIENCE AND NANOTECHNOLOGY
DEPOSITION
DOPED MATERIALS
ELECTROCHEMISTRY
FLUORINE
GLASS
HETEROJUNCTIONS
HYDROTHERMAL SYNTHESIS
IRON OXIDES
NANOPARTICLES
PERFORMANCE
SILVER CHLORIDES
SPECTROSCOPY
SUBSTRATES
SURFACES
TIN OXIDES
TITANIUM OXIDES
VISIBLE RADIATION

Improving photoelectrochemical performance by building Fe{sub 2}O{sub 3} heterostructure on TiO{sub 2} nanorod arrays

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