Water-splitting performance of Cu-In-S compounds/1D-Na2Ti6O13/FTO photoelectrodes

An approximately 700 nm thick film of 1D-Na 2 Ti 6 O 13 nanorods, synthesized by heating a mixture of Natitanate nanotubes and NaCl at 810°C, was fabricated using LBL-SA technique. To improve the photoactivity of the coated film, Cu x S, In 2 S 3 and CuInS 2 were synthesized and incorporated into th...

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Published in	Electronic materials letters Vol. 8; no. 4; pp. 387 - 390
Main Authors	Ku, Hye-Kyung, Oh, Hyo-Jin, Noh, Kyung-Jong, Jung, Sang-Chul, Kang, Wooseung, Kim, Sun-Jae
Format	Journal Article
Language	English
Published	Springer The Korean Institute of Metals and Materials 01.08.2012 대한금속·재료학회
Subjects	Characterization and Evaluation of Materials Chemistry and Materials Science Condensed Matter Physics Materials Science Nanotechnology Nanotechnology and Microengineering Optical and Electronic Materials 전자/정보통신공학 molten salt Na polyol process Ti photoelectrode water-splitting O
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ISSN	1738-8090 2093-6788
DOI	10.1007/s13391-012-2018-x

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Abstract	An approximately 700 nm thick film of 1D-Na 2 Ti 6 O 13 nanorods, synthesized by heating a mixture of Natitanate nanotubes and NaCl at 810°C, was fabricated using LBL-SA technique. To improve the photoactivity of the coated film, Cu x S, In 2 S 3 and CuInS 2 were synthesized and incorporated into the film by the polyol process. The thicknesses of Cu x S, In 2 S 3 and CuInS 2 films incorporated into the film were 2 µm, 2 µm, and 40 µm, respectively. A deterioration of photocurrent was observed with the film incorporated with In 2 S 3 particles. However, the films with Cu x S or CuInS 2 showed improved photocurrent, and the onset voltage was also reduced to 0.4 V. The performance of the films incorporated with 40 µm thick CuInS 2 were affected by the light direction; a higher photocurrent was measured with the light illuminated through opposite side of the film.
AbstractList	An approximately 700 nm thick film of 1D-Na 2 Ti 6 O 13 nanorods, synthesized by heating a mixture of Natitanate nanotubes and NaCl at 810°C, was fabricated using LBL-SA technique. To improve the photoactivity of the coated film, Cu x S, In 2 S 3 and CuInS 2 were synthesized and incorporated into the film by the polyol process. The thicknesses of Cu x S, In 2 S 3 and CuInS 2 films incorporated into the film were 2 µm, 2 µm, and 40 µm, respectively. A deterioration of photocurrent was observed with the film incorporated with In 2 S 3 particles. However, the films with Cu x S or CuInS 2 showed improved photocurrent, and the onset voltage was also reduced to 0.4 V. The performance of the films incorporated with 40 µm thick CuInS 2 were affected by the light direction; a higher photocurrent was measured with the light illuminated through opposite side of the film. An approximately 700 nm thick film of 1D-Na2Ti6O13 nanorods, synthesized by heating a mixture of Natitanate nanotubes and NaCl at 810°C, was fabricated using LBL-SA technique. To improve the photoactivity of the coated film, CuxS, In2S3 and CuInS2 were synthesized and incorporated into the film by the polyol process. The thicknesses of CuxS, In2S3 and CuInS2 films incorporated into the film were 2 μm, 2 μm, and 40 μm, respectively. A deterioration of photocurrent was observed with the film incorporated with In2S3particles. However, the films with CuxS or CuInS2 showed improved photocurrent, and the onset voltage was also reduced to 0.4 V. The performance of the films incorporated with 40 μm thick CuInS2 were affected by the light direction; a higher photocurrent was measured with the light illuminated through opposite side of the film. KCI Citation Count: 1
Author	Jung, Sang-Chul Noh, Kyung-Jong Kim, Sun-Jae Kang, Wooseung Oh, Hyo-Jin Ku, Hye-Kyung
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Title	Water-splitting performance of Cu-In-S compounds/1D-Na2Ti6O13/FTO photoelectrodes
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