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作 者:黄金昭[1] 徐征[1] 李海玲[2] 亢国虎[2] 王文静[2]
机构地区:[1]北京交通大学光电子技术研究所发光与光信息技术教育部重点实验室,北京100044 [2]北京市太阳能研究所,北京100083
出 处:《高等学校化学学报》2006年第5期909-913,共5页Chemical Journal of Chinese Universities
基 金:国家'九七三'计划(批准号:2003CB214501);北京交通大学优秀博士生科技创新基金项目(批准号:48010)资助
摘 要:利用射频磁控溅射方法制备了纳米晶N i-Mo合金薄膜,并将其用作太阳能光电化学制氢的阴极催化膜.采用XRD,EDS,SEM和AFM对膜的晶型、成分、表面形貌以及晶粒尺寸进行了表征.用稳态极化曲线和电化学交流阻抗谱对膜的析氢电化学特性进行了测试.结果表明,在较高的工作压强、较低的衬底温度和较远的靶距下沉积的膜有较好的电化学性能,晶粒的细化以及膜中Mo含量的增加有助于析氢催化活性的提高,在电流密度为100 mA/cm2时析氢过电势为177.7 mV,电化学脱附是膜上析氢反应的控制步骤.Ni-Mo alloy thin film was prepared by RF magnetron sputtering method, and the film was used as cathode catalyst in photoelectrochemical hydrogen production from solar energy firstly. The crystallinity, composition, surface morphology and crystalline size were characterized by XRD, EDS, SEM and AFM experi- ments. The electrochemical behavior of the film were studied chemical impedance spectroscopy. The results mentioned abov by steady-state e show that und working pressure, lower substrate temperature and the longer target distance the polarization plots and electroer the conditions of the higher Ni-Mo alloy thin film obtained possesses a good electrocatalytic activity. Additionally, the electrocatalytic activity of the film was also enhanced with the decreasing of crystalline size and increasing of molybdenum content. The hydrogen overpotential of hydrogen evolution reaction is 177.7 mV at current density 100 mA/cm^2. The rate-limiting step was electrochemical desorption.
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