中文摘要：

采用等离子体增强型化学气相沉积（PECVD）的方式,以硅烷（SiH4）、氢气（H2）、磷烷（PH3）以及二氧化碳（CO2）等气体为原料,制备具有宽带隙、高电导特性的n型氢化纳米晶硅氧（n-nc-SiOx：H）薄膜,并对其进行了结构分析、暗电导测试和透射反射谱测试.结果表明,增加反应过程中CO2流量会展宽nnc-SiOx：H薄膜的光学带隙,增加H2流量将改善n-nc-SiOx：H薄膜的晶化率.在H2流量为320sccm,CO2流量为0.9sccm的条件下,制备n-nc-SiOx：H薄膜的光学带隙可达2.47e V,电导为0.1S/cm.

英文摘要：

The n-type hydrogenated nano-crystalline silicon oxide thin films with wide optical band gap andhigh conductivity have been prepared by plasma enhanced chemical vapor deposition（PECVD）technique with silane（SiH4）,hydrogen（H2）,phosphine（PH3）and carbon dioxide（CO2）gas sources.The structure properties and photo-electrical characteristics of the thin films have also been exam-ined in detail. The results indicate that increasing the flow rate of the CO2 will widen the opticalbandgap of the thins films;while the increasing the flow rate of the H2 will improve the crystalliza-tion of the thin films. The n-nc-SiOx：H films with a bandgap of 2.47 e V and a conductivity of the0.1 S/cm could be achieved when the flow rate of H2 and CO2 is 320 sccm and 0.9 sccm,respectively.