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J4 ›› 2011, Vol. 17 ›› Issue (1): 118-124.

• 其他学科论文 • 上一篇    下一篇

热处理金红石晶体结构及其光催化活性分析

吴  婧, 秦  善, 罗泽敏, 庄  伟, 曾翠平, 鲁安怀   

  1. 造山带与地壳演化教育部重点实验室,北京大学 地质学系
  • 收稿日期:2010-10-22 修回日期:2010-12-31 出版日期:2011-03-20 发布日期:2011-03-20
  • 通讯作者: 秦善,教授,主要从事矿物学教学和研究;
  • 作者简介:吴婧,1985年生,女,博士研究生,从事矿物学研究
  • 基金资助:

      国家重点基础研究发展计划(973项目)(2007CB825602);中国地质大学(北京)矿物材料国家专业实验室开放研究基金
    (09A007)联合资助

The crystal structure and photocatalytic activity of natural rutile modified by heat treatment…

WU Jing, QIN Shan, LUO Ze-min, ZHUANG Wei, ZENG Cui-ping, LU An-huai    

  1. Key Laboratory of Orogenic Belts and Crustal Evolution of MOE, Department of Geology, Peking University
  • Received:2010-10-22 Revised:2010-12-31 Online:2011-03-20 Published:2011-03-20
  • Contact: Qin Shan, Professor.

摘要:

本文以在氢气气氛中加热和退火处理的天然金红石样品(采自山西某变质矿床)为研究对象,利用单晶和粉晶X-
射线衍射(XRD)、环境扫描电子显微镜(ESEM)、紫外-可见漫反射吸收光谱(UV-vis)等矿物学常规测试方法,结合
Rietveld方法对实验数据计算和精修的结果,对系列样品的晶体结构及对光催化活性影响进行了系统的研究。实验结果表明,
天然金红石中含有的V,Fe等杂质离子以类质同象替代Ti4+离子存在于晶格之中,引起晶格畸变,有助于提高样品的光催
化活性。随着温度升高,一方面部分类质同象替代的三价铁离子逐步被还原为二价铁和单质铁,大半径离子逃离晶格引起
金红石晶胞参数减小;另一方面,热处理引起晶格膨胀,结果导致样品的晶胞参数变化不明显。同时,热处理金红石样品
的可见光响应能力得到大幅提高,900℃样品在600 nm处的光吸收强度相对于原样增大了147.2%。在800℃及900℃样品中
出现的微量单质铁为金属导体,其费米能级较低,与半导体金红石颗粒接触时可以快速转移光生电子,从而提高体系的可
见光响应能力。

关键词: 天然金红石, 氢气热处理, 单质铁, 可见光响应

Abstract:

The micro-structure and photocatalytic activity of natural  rutile, which was heated and annealed under hydrogen
atmosphere, was studied here. Several conventional mineralogical  test methods were used, such as X-ray diffraction  (XRD),
environmental scanning electron microscopy  (ESEM), UV-vis diffusive  reflectance absorption spectral analysis and structural
refinement using GSAS software with Rietveld method. The natural rutile samples used in this study are found in a metamorphic
deposit and collected from Shanxi province, China. The experimental results indicate that V, Fe and other impurities exist in the
crystal  lattice of natural  rutile as  isomorphous substitution  for Ti  ions, which causes distortion of crystal  lattice and effectively
enhances  the photocatalytic activity of  the specimens. As  the  temperature  increased, parts of  the  isomorphous substituted  ferric
ions were gradually reduced to divalent and elemental iron. On one hand, the unit cell parameters of rutile decreased because of
escaping of ions from the lattice, which have larger ionic radii than Ti4+ion. On the other hand, the unit cell parameters would be
increased because of thermal expansion caused by the heat treatment. Therefore, no significant change in the unit cell parameters
was observed. At the same time, the visible light response abilities of heated rutile samples were largely improved with increasing
temperature. Compared  to  the original  sample RZM,  the  light absorption  intensity of  sample, which was  subjected  to heat
treatment at 900℃, was enlarged by 147.2 % at 600 nm. Rietveld refinements suggested that a small amount of simple substance
iron appeared when the heating temperature reached 800 ℃ and 900 ℃. Iron is a metallic conductor and has lower Fermi level.When  iron was  in contact with semiconductor rutile particles,  the photo-induced electrons could be  transferred rapidly,  thereby
enhancing the visible light response ability of the system.

Key words: natural rutile, hydrogen heat treatment, simple substance iron, visible light response

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