The design and development of second-generation titanium oxide photocatalysts able to operate under visible light irradiation by applying a metal ion-implantation method
The design and development of second-generation titanium oxide photocatalysts able to operate...
Anpo, M; Kishiguchi, S; Ichihashi, Y; Takeuchi, M; Yamashita, H; Ikeue, K; Morin, B; Davidson, A; Che, M
2001-07-01 00:00:00
Unique second-generation titanium oxide photocatalysts enabling effective and efficient reactions not only under ultraviolet (UV) but also visible light irradiation have been successfully designed and developed by applying a metal ion-implantation method. With these second-generation titanium oxide photocatalysts, solar beams are absorbed up to 25-30% more efficiently, allowing their large scale use for the reduction of enviromental toxins.
http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.pngResearch on Chemical IntermediatesSpringer Journalshttp://www.deepdyve.com/lp/springer-journals/the-design-and-development-of-second-generation-titanium-oxide-QkgTa30prD
The design and development of second-generation titanium oxide photocatalysts able to operate under visible light irradiation by applying a metal ion-implantation method
Unique second-generation titanium oxide photocatalysts enabling effective and efficient reactions not only under ultraviolet (UV) but also visible light irradiation have been successfully designed and developed by applying a metal ion-implantation method. With these second-generation titanium oxide photocatalysts, solar beams are absorbed up to 25-30% more efficiently, allowing their large scale use for the reduction of enviromental toxins.
Journal
Research on Chemical Intermediates
– Springer Journals
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