Chen Xiao-Jia, Struzhkin Viktor V, Song Yang, Goncharov Alexander F, Ahart Muhtar, Liu Zhenxian, Mao Ho-Kwang, Hemley Russell J
Geophysical Laboratory, Carnegie Institution of Washington, Washington, DC 20015, USA.
Proc Natl Acad Sci U S A. 2008 Jan 8;105(1):20-3. doi: 10.1073/pnas.0710473105. Epub 2007 Dec 27.
There is a great interest in electronic transitions in hydrogen-rich materials under extreme conditions. It has been recently suggested that the group IVa hydrides such as methane (CH(4)), silane (SiH(4)), and germane (GeH(4)) become metallic at far lower pressures than pure hydrogen at equivalent densities because the hydrogen is chemically compressed in group IVa hydride compounds. Here we report measurements of Raman and infrared spectra of silane under pressure. We find that SiH(4) undergoes three phase transitions before becoming opaque at 27-30 GPa. The vibrational spectra indicate the material transforms to a polymeric (framework) structure in this higher pressure range. Room-temperature infrared reflectivity data reveal that the material exhibits Drude-like metallic behavior above 60 GPa, indicating the onset of pressure-induced metallization.
在极端条件下,富氢材料中的电子跃迁引起了人们极大的兴趣。最近有研究表明,诸如甲烷(CH₄)、硅烷(SiH₄)和锗烷(GeH₄)等IVA族氢化物在远低于同等密度下纯氢的压力时就会变成金属,这是因为在IVA族氢化物化合物中氢被化学压缩。在此,我们报告了硅烷在高压下的拉曼光谱和红外光谱测量结果。我们发现,SiH₄在27 - 30 GPa变得不透明之前经历了三次相变。振动光谱表明,该材料在这个更高的压力范围内转变为聚合物(框架)结构。室温红外反射率数据显示,该材料在60 GPa以上表现出类似德鲁德的金属行为,表明压力诱导金属化的开始。