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Photon-Ion Catalysis Synergy Material and Its Application

Photon-Ion Catalysis Synergy Material and Its Application
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摘要 The co-operation action mechanism and model of photon-ion catalysis synergy material composed of thallium and valency-variable rare earth elements and semiconductor oxide were proposed. The radiation catalysis reactions of water and oxygen assisted by the synergy material that could largely increase electron, free radical and negative ion products were discussed. The applications of photon-ion catalysis synergy material in areas of air cleaning material, antibacterial material , healthy material and energy resource material were suggested. The co-operation action mechanism and model of photon-ion catalysis synergy material composed of thallium and valency-variable rare earth elements and semiconductor oxide were proposed. The radiation catalysis reactions of water and oxygen assisted by the synergy material that could largely increase electron, free radical and negative ion products were discussed. The applications of photon-ion catalysis synergy material in areas of air cleaning material, antibacterial material , healthy material and energy resource material were suggested.
作者 金宗哲 王毅 王圣威 黄丽容
机构地区 Machinery and Electronics Research Institute of Environment Engineering
出处 《Journal of Rare Earths》 SCIE EI CAS CSCD 2006年第z2期28-30,共3页 稀土学报(英文版)
基金 Project supported by Railroad Ministry Foundation (2004J041)
关键词 PHOTOCHEMISTRY photon radiation chemistry synergy material valency-variable rare earth elements free radical ION photochemistry photon radiation chemistry synergy material valency-variable rare earth elements free radical ion
分类号 O643.32 [理学—物理化学]
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参考文献10

  • 1[1]Fujishima A,Honda K.Electrochemistry photocatalysis of water at semi-conduct electrode[J].Nature.,1972,238(37):37.
  • 2[2]Asahi R,Morikawa T.Visible photocatalysis in nitrogen-dopes titanium oxides[J].Science,2001,293:269.
  • 3[3]Lu Daling,Takata Tsuyoshi,Saito Nobuo,et al.Photocatalyst releasing hydrogen from water[J].Nature,2006,440:295.
  • 4[4]Jin Zongzhe,Ji Zhijang.Multiband wave photocatalyzed materials[P].ZL 02159422.8,2002.
  • 5[5]Luckey T D.Physiological benefits from low levels of ionizing radiation[J].Healthy Physics,1982,43(6):771.
  • 6[6]High-Background Radiation Research Group,China.Health Survey in high background radiation areas in China[J].Science,1980,209(22):877.
  • 7金宗哲,张志力,卫罡,黄丽容.Photo-Catalyzed Rare Earth Materials with Ability to Translate Free Radicals into Negative Ions[J].Journal of Rare Earths,2005,23(2):183-185. 被引量:2
  • 8[8]Jin Zongzhe,Wang Yi.Photo-ion-catalyzed rare earth functional synergy material[J].J.Rare Earths,2005,23(12):54.
  • 9[9]Jin Zongzhe,Huang Lirong,Wei Gang.Porous ceramics activating liquid and its preparation[P].CN1657501A,2005,8.
  • 10[10]Fujishima A.The latest trend of photolysis research[J].Engineering Materials (in Jap.),2002,50(7):18.

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Journal of Rare Earths
2006年 第z2期

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