Search Results - "Jia, Qingxin"

Facile fabrication of an efficient BiVO₄ thin film electrode for water splitting under visible light irradiation by Jia, Qingxin, Iwashina, Katsuya, Kudo, Akihiko

“…An efficient BiVO ₄ thin film electrode for overall water splitting was prepared by dipping an F-doped SnO ₂ (FTO) substrate electrode in an aqueous nitric…”
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BiVO4–Ru/SrTiO3:Rh composite Z-scheme photocatalyst for solar water splitting by Jia, Qingxin, Iwase, Akihide, Kudo, Akihiko

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A Front-Illuminated Nanostructured Transparent BiVO4 Photoanode for >2% Efficient Water Splitting by Kuang, Yongbo, Jia, Qingxin, Nishiyama, Hiroshi, Yamada, Taro, Kudo, Akihiko, Domen, Kazunari

“…Appropriate nanostructuring and morphology control significantly improves front illumination performance and optical properties of a transparent BiVO4…”
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Ultrastable low-bias water splitting photoanodes via photocorrosion inhibition and in situ catalyst regeneration by Kuang, Yongbo, Jia, Qingxin, Ma, Guijun, Hisatomi, Takashi, Minegishi, Tsutomu, Nishiyama, Hiroshi, Nakabayashi, Mamiko, Shibata, Naoya, Yamada, Taro, Kudo, Akihiko, Domen, Kazunari

“…Photoelectrochemical (PEC) water splitting offers a means for distributed solar hydrogen production. However, the lack of stable and cost-effective photoanodes…”
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Electron–Phonon Coupling Dynamics at Oxygen Evolution Sites of Visible-Light-Driven Photocatalyst: Bismuth Vanadate by Aiga, Norihiro, Jia, Qingxin, Watanabe, Kazuya, Kudo, Akihiko, Sugimoto, Toshiki, Matsumoto, Yoshiyasu

“…Bismuth vanadate (BiVO4) is an effective visible-light-driven photocatalyst for oxygen evolution from water. To understand the mechanism of photocatalytic…”
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Solar-driven BiVO4 Photoanodes Prepared by a Facile Screen Printing Method by Iwase, Akihide, Ito, Hiromi, Jia, Qingxin, Kudo, Akihiko

“…Mo-doped BiVO4 powder was successfully prepared by a facile liquid-solid-state reaction and was applied to a photoanode for water splitting. Pulverization of…”
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Direct Gas-phase CO2 Reduction for Solar Methane Generation Using a Gas Diffusion Electrode with a BiVO4:Mo and a Cu-In-Se Photoanode by Jia, Qingxin, Tanabe, Shinichi, Waki, Ichitaro

“…Solar methane generation was demonstrated using a GDE loaded with Cu and Ag as a cathode, and a CoPi/BiVO4:Mo film as a photoanode combined with a CIS-PV…”
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A New, Efficient Conversion Technology to Transform Ambient CO2 to Valuable, Carbon-Based Fuel via Molten Salt Electrochemistry by Ji, Deqiang, Jia, Qingxin, Zhu, Chuanli, Dong, Wei, Wu, Hongjun, Wang, Guanzhong

“…Climate warming and environmental problems caused by the excessive consumption of fossil energy and massive CO2 emissions have seriously damaged the human…”
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Scalable water splitting on particulate photocatalyst sheets with a solar-to-hydrogen energy conversion efficiency exceeding 1 by Wang, Qian, Hisatomi, Takashi, Jia, Qingxin, Tokudome, Hiromasa, Zhong, Miao, Wang, Chizhong, Pan, Zhenhua, Takata, Tsuyoshi, Nakabayashi, Mamiko, Shibata, Naoya, Li, Yanbo, Sharp, Ian D., Kudo, Akihiko, Yamada, Taro, Domen, Kazunari

“…Photocatalytic water splitting using semiconductors is attractive for converting solar energy into hydrogen. An efficient and scalable system based on…”
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Time-Resolved Infrared Absorption Study of SrTiO3 Photocatalysts Codoped with Rhodium and Antimony by Furuhashi, Koji, Jia, Qingxin, Kudo, Akihiko, Onishi, Hiroshi

“…In this study, SrTiO3 photocatalysts doped with Rh and Sb are prepared by hydrothermal synthesis. Doping Rh alone causes optical absorption centered at 580 and…”
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Direct Gas-phase CO2 Reduction for Solar Methane Generation Using a Gas Diffusion Electrode with a BiVO4:Mo and a Cu-In-Se Photoanode

“…Solar methane generation was demonstrated using a GDE loaded with Cu and Ag as a cathode, and a CoPi/BiVO4:Mo film as a photoanode combined with a CIS-PV…”
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Direct Gas-phase CO 2 Reduction for Solar Methane Generation Using a Gas Diffusion Electrode with a BiVO 4 :Mo and a Cu-In-Se Photoanode by Jia, Qingxin, Tanabe, Shinichi, Waki, Ichitaro

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BiVO4-Ru/SrTiO3:Rh composite Z-scheme photocatalyst for solar water splittingElectronic supplementary information (ESI) available. See DOI: 10.1039/c3sc52810c by Jia, Qingxin, Iwase, Akihide, Kudo, Akihiko

“…BiVO 4 -SrTiO 3 :Rh composites in which the Rh-doped SrTiO 3 particles of a H 2 -evolving photocatalyst attached on the BiVO 4 particles of an O 2 -evolving…”
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BiVO sub(4)-Ru/SrTiO sub(3):R h composite Z-scheme photocatalyst for solar water splitting by Jia, Qingxin, Iwase, Akihide, Kudo, Akihiko

“…BiVO sub(4)-SrTiO sub(3):Rh composites in which the Rh-doped SrTiO sub(3) particles of a H sub(2)-evolving photocatalyst attached on the BiVO sub(4) particles…”
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Solar-driven BiVO 4 Photoanodes Prepared by a Facile Screen Printing Method by Iwase, Akihide, Ito, Hiromi, Jia, Qingxin, Kudo, Akihiko

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Facile fabrication of an efficient BiVO 4 thin film electrode for water splitting under visible light irradiation by Jia, Qingxin, Iwashina, Katsuya, Kudo, Akihiko

“…An efficient BiVO 4 thin film electrode for overall water splitting was prepared by dipping an F-doped SnO 2 (FTO) substrate electrode in an aqueous nitric…”
Get full text

Facile fabrication of an efficient BiVO^sub 4^ thin film electrode for water splitting under visible light irradiation by Jia, Qingxin, Iwashina, Katsuya, Kudo, Akihiko

“…An efficient BiVO4 thin film electrode for overall water splitting was prepared by dipping an F-doped SnO2 (FTO) substrate electrode in an aqueous nitric acid…”
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Time-Resolved Infrared Absorption Study of SrTiO 3 Photocatalysts Codoped with Rhodium and Antimony by Furuhashi, Koji, Jia, Qingxin, Kudo, Akihiko, Onishi, Hiroshi

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InBO3 Photocatalyst with Calcite Structure for Overall Water Splitting by Jia, Qingxin, Miseki, Yugo, Saito, Kenji, Kobayashi, Hisayoshi, Kudo, Akihiko

“…Indium borate (InBO3) with a calcite structure that was prepared by a solid-state reaction and a two-step precipitation method was employed as a photocatalyst…”
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A Front‐Illuminated Nanostructured Transparent BiVO 4 Photoanode for >2% Efficient Water Splitting by Kuang, Yongbo, Jia, Qingxin, Nishiyama, Hiroshi, Yamada, Taro, Kudo, Akihiko, Domen, Kazunari

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