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Photocatalytic activity of gallium nitride for producing hydrogen from water under light irradiation

机译:氮化镓在光照射下从水中制氢的光催化活性

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摘要

Photocatalytic activity of powdered GaN for decomposing water into hydrogen under light irradiation was investigated. It was found that GaN has activity for producing hydrogen from water containing electron donors (Na2S-Na2SO3, CH3OH) without a loading of a noble metal; the obtained H2 yield was ca. 150 μmol for a 200 h-Xe lamp (300 W) irradiation. The activity was increased by adding NaOH in the reaction solution due to the photo-etching of GaN by NaOH and concomitant removal of the native oxide from the surface, as confirmed by XPS, XRD, and PL measurements. The band energy scheme for GaN suggests that the conduction band edge of GaN is positioned at 0.5 V higher than the redox potential of H+/H2. This large energy difference (overpotential) makes the photocatalytic H2 evolution over GaN from water possible.
机译:研究了粉状GaN在光照射下将水分解为氢的光催化活性。发现GaN具有在不负载贵金属的情况下从含有电子供体的水(Na2 S-Na2 SO3 ,CH3 OH)中产生氢的活性。所获得的H2 产量约为对于200 h-Xe灯(300 W)辐射为150μmol。通过XPS,XRD和PL测量证实,由于通过NaOH进行GaN的光蚀刻以及伴随地从表面去除天然氧化物,在反应溶液中添加NaOH可以提高活性。 GaN的能带方案表明,GaN的导带边缘位于比H + / H2 的氧化还原电势高0.5 V的位置。这种巨大的能量差(超电势)使得光催化H2 在水中从GaN上析出成为可能。

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  • 来源
    《Journal of Materials Science 》 |2006年第11期| 3527-3534| 共8页
  • 作者

    T. Kida; Y. Minami; G. Guan; M. Nagano; M. Akiyama; A. Yoshida;

  • 作者单位

    Department of Chemistry and Applied Chemistry Faculty of Science and Engineering Saga University;

    Department of Molecular and Material Sciences Interdisciplinary Graduate School of Engineering Sciences Kyushu University;

    Fuel Processing and Heterogeneous Chemical Process Technology Department Institut fur Microtechnik Mainz GmbH;

    Department of Chemistry and Applied Chemistry Faculty of Science and Engineering Saga University;

    On-Site Sensing and Diagnosis Research Laboratory National Institute of Advanced Industrial Science and Technology AIST Kyushu;

    Department of Materials Science and Chemical Engineering Kitakyushu National College of Technology;

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