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浅谈出入场线地铁车站建筑方案设计要点
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作者 王伟 居多帅 《建材与装饰》 2017年第5期72-73,共2页
本文介绍了出入场线地铁车站建筑方案设计中注意的要点,再次基础上分块阐述了个要点中小的技术点,探讨设计重难点,尤其突出阐述消防疏散及底板设计注意点,希望可以对后期的出入场线地铁车站建筑方案设计有一定的帮助和指导。
关键词 出入场线地铁车站 站位选择 客流吸引 控制因素 附属设置 消防疏散 车站底板设计
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DFT Study of Metal Atoms Adsorbed at Low-coordinated Sites of MgO (001) Surface
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作者 徐艺军 章永凡 +1 位作者 陈文凯 李俊篯 《Chinese Journal of Structural Chemistry》 SCIE CAS CSCD 北大核心 2003年第6期700-704,共5页
The adsorption of metal atoms, Ni, Pd, Pt, Cu, Ag and Au, at low-coordinated edge and corner oxygen sites of MgO (001) surface has been studied theoretically by using density functional method with cluster models embe... The adsorption of metal atoms, Ni, Pd, Pt, Cu, Ag and Au, at low-coordinated edge and corner oxygen sites of MgO (001) surface has been studied theoretically by using density functional method with cluster models embedded in a large array of point charges. For comparison, the interaction of metal atoms with perfect regular oxygen site of MgO (001) surface was also calculated. As regards these metal atoms adsorbed at perfect oxygen sites of MgO (001) surface, Cu, Ag and Au are very weakly bonded to the surface of MgO; Ni, Pd and Pt, on the other hand, exhibit strong interactions with perfect oxygen sites of MgO (001) surface; the large adsorption energy shows that there exist strong bonds formed between these metal atoms with surface oxygen sites. For the metal atoms adsorbed at edge and corner sites, the adsorption energy is much increased, consistent with our previous study of CO and Cl2 adsorption on MgO (001) surface. This illustrates that the low-coordinated sites, especially corner site, are more advantageous positions for those metal atoms adsorbed on MgO (001) surface. The Mulliken population analysis indicates that the electron transferred from MgO to the metal atoms were increased with the decrease of the coordination numbers, which may be one of the reasons for changing catalytic efficiency and selectivity of the metal particles supported by MgO. 展开更多
关键词 DFT metal atoms low-coordinated sites MgO (001) surface
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