Hydrogen Gas Evolution from Water-dispersed Titania and Alumina Nanoparticles by γ-Ray Irradiation
Author:
Affiliation:
1. Department of Nuclear Engineering, Osaka University
2. Institute of Science and Industrial Research, Osaka University
3. Research Institute for Advanced Science and Technology, Osaka Prefecture University
Publisher
Japan Radioisotope Association
Subject
Radiation
Link
https://www.jstage.jst.go.jp/article/radioisotopes1952/49/7/49_7_354/_pdf
Reference4 articles.
1. 1) Wada, Y., Kawaguchi, K. and Myochin, M.: Decomposition of water and production of H2 using semiconductor-photocatalytic effect induced by gamma ray from high radioactive waste, Prog. Nucl. Energy, 29, 251-256 (1995)
2. 2) Yamamoto, T.A., Seino, S., Katsura, M., Okitsu, K., Oshima, R. and Nagata, Y.: Hydrogen gas evolution from alumina nanoparticles dispersed in water irradiated with γ-ray, NanoStructured Materials, 12, 1045-1048 (1999)
3. 3) Draganic, I.G. and Draganic, Z.D.: “The Radiation Chemistry of Water”, pp.9-14, Academic Press, New York and London (1971)
4. 6) Li, Y. and Wang, L.: “Semiconductor Nanoclusters-Physical, Chemical, and Catalytic Aspects” (Kamat, P.V. and Meisel, D. eds.) , pp.391-415, Elsevier, Amsterdam (1996)
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1. Radiation Chemistry of Water with Ceramic Oxides;Charged Particle and Photon Interactions with Matter;2010-12-13
2. Enhancement of Hydrogen Evolution Yield from Water Dispersing Nanoparticles Irradiated with Gamma-Ray;Journal of Nuclear Science and Technology;2001-08
3. Hydrogen evolution from water dispersing nanoparticles irradiated with gamma-ray/size effect and dose rate effect;Scripta Materialia;2001-05
4. Effect of pH on Hydrogen Evolution Yield from Water Dispersing Titania Nanoparticles Enhanced by Gamma Ray;MRS Proceedings;2001
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