光解水制氢

光解水制氢光解水制氢
  1. Ti(Ⅲ)/TEOA/K2PtCl6复合催化体系的光解水制氢的研究

    Investigation of the hydrogen generation from photolysis of water by ti (ⅲ) / teoa / k_2ptcl_6 catalyst system

  2. 纳米TiO2介孔分子筛的可控合成及在光解水制氢的应用

    The Controlled-Struture of TiO_2 Mesoporous Molecular Sieves and Its Application for Photocatalytic H_2 Generation

  3. 可见光活性的Ru掺杂TiO2光催化剂的制备及光解水制氢性能研究

    Studies on the Preparation of Ru Doped TiO_2 and Characterization of Hydrogen Generation from Water under Visible Irradiation

  4. 这说明GS及GO有效地起到了传递光生电子的作用,这种复合光催化剂在光解水制氢等方面有广阔的应用前景。

    It implied that GO and GS can transfer photoelectron effectively . The photocatalysts should be promising in the potential applications in water splitting and light sensitive photocatalysis . 3 .

  5. Gd~(3+)掺杂纳米TiO2的制备及光解水制氢性能研究

    The preparation of nanoparticle Gd ~ ( 3 + ) - doped TiO_2 and the performance of photocatalytic decomposition of water into hydrogen

  6. Keggin结构杂多酸盐作光敏剂光解水制氢的比较研究

    Keggin Structure as Photosensitizer Photodecomposition Water

  7. Ru掺杂的最佳浓度为0.014%,在可见光的照射下,Ru(0.014%)/TiO2对光解水制氢有较高的活性。

    The optimum doping content of Ru was 0.014 % , the photocatalyst of Ru ( 0.014 % ) / TiO_2 had a higher photocatalytic activity to hydrogen generation from water under visible light irradiation .

  8. 本文详细介绍了纳米TiO2的光催化原理,并结合其在污水处理、空气净化光解水制氢、太阳电池等方面的应用进一步作了深入讨论。

    In this paper , the photocatalytic principle of nano-TiO_2 is introduced . According to its application in the field of wastewater treatment , air purification , hydrogen production by the photolysis of wate , solar cell etc , the photo catalytic principles of nano-TiO_2 are deeply discussed .

  9. 表面修饰层在P&InP光解水制氢中的作用

    Effect of Surface Modification Layer on P-InP Photoelectrolysis of Water

  10. 光解水制氢半导体光催化材料的研究进展

    Progress of semiconductor materials as photocatalysts for hydrogen production from water decomposition

  11. 无机层状化合物及其柱撑产物光解水制氢

    Hydrogen Production from Water Photocatalyzed by Layered Inorganic Compounds and Their Pillared-Products

  12. 可见光响应光解水制氢的半导体光催化剂

    Visible Light-Driven Semiconductor Photocatalysts for the Decomposition of Water

  13. 绿藻间接光解水制氢过程的研究

    Study on Process of Biological Hydrogen Production from Indirect Photo-hydrolysis by Unicellular Green Algae

  14. 太阳能光解水制氢催化剂无机层状化合物研究进展

    Research Progress of Inorganic Layered Photocatalysts for Photocatalytic Decomposition of Water into Hydrogen with Solar Energy

  15. 氢能燃料电池及半导体光解水制氢研究进展

    Advance on Hydrogen Energy Fuel Cell and Research of Hydrogen Production from Water by Photolysis with Solar Energy

  16. 生物化学制氢和半导体光解水制氢仅以太阳能为能源,前景广阔。

    Bio-hydrogen production and photochemical water splitting , only consuming solar energy , have a wide prospect of application .

  17. 其中,利用太阳能光解水制氢是解决上述问题的最佳途径之一。

    And the use of photocatalytic water splitting for H2 production is the best way to solve these problems .

  18. 绿藻可逆性氢酶制氢是太阳能光解水制氢的理想途径。

    H2 production by reversible hydrogenase in green algae is a perfect approach of H2 production by photo-hydrolysis through solar energy .

  19. 论述了无机层状化合物光催化剂光解水制氢研究进展;

    Research progress of inorganic layered compounds photocatalysts for photocatalytic decomposition of water into hydrogen and oxygen was described in this paper .

  20. 利用半导体光催化剂光解水制氢就是解决这一问题的途径之一。

    Overall water splitting for the production of hydrogen using a particulate photocatalyst , is one of the measures to solve this problem .

  21. 研究开发可见光响应的光催化剂一直是光解水制氢的首要目标。

    The urgent work for photocatalytically splitting water into H_2 and O_2 is to develop photocatalysts capable of responding to visible light occupying nearly half amount of solar spectrum .

  22. 光催化剂应用于光解水制氢反应,表现出较高的光催化活性,启发我们进一步研究其合成及光解水反应机制并开发更多的潜在价值。

    The photocatalyst showed high photocatalytic activity , inspired us to study its reaction mechanism of the synthesis and water-splitting to produce hydrogen and the development of more potential value further .

  23. T102作为一种重要的无机功能型材料,具有优越的物理化学特性,广泛应用于光电转换、光催化以及光解水制氢等众多重要领域。

    TiO2 , as a kind of important inorganic functional materials , have been widely applied in photoelectric conversion , photocatalyst and water photolysis due to its excellent physical and chemical properties .

  24. 当前,直接将太阳能转换成电能和利用太阳能光解水制氢是最有希望的两个研究方向,其中,开发高效、廉价的实用型光电极材料至关重要。

    Currently , transforming the solar energy into electrical energy and producing hydrogen using the solar energy are the two promising research interest . Developing high efficiency photoelectrode with low cost is very important .

  25. 利用太阳能光解水制氢和降解有机污染物对解决能源和环境问题具有重要意义,而可见光响应催化剂的研制是实现太阳光高效利用的关键。

    Water splitting for hydrogen evolving and organic pollutants degradation by utilization of solar energy have vital significance for solving the energy crisis and environmental problems . Developing visible light responding photocatalysts is the key for sunlight efficiently utilization .