摘要
研究了PI(聚酰亚胺)薄膜在不同的炭化和石墨化温度条件下进行热处理所获得的激光喇曼光谱的特征及其结构变化的规律。结果表明,随着热处理温度的升高,试样中归属于A1g和E2g模式的1358cm-1峰和1578cm-1散射峰的伸缩振动依赖于杂环稠合苯环所构成的分子结构。在2100℃以前,碳体的分子结构发生明显变化,有序性增加,无序区减小。当温度达到2800℃时,该试样便转变为属于D6h空间群的六角平面的层状石墨结构。另外,还估算了试样在1000℃至1700℃温度范围内碳体微晶尺寸(La)的值,发现在此温间La成长较慢。
The laser Raman spectroscopic characterization and structural change of polyimide thin film at various carbonization and graphitization temperature were studied. The results show that with rising heatment temperature the stretching vibration of 1358 cm-1 and 1587 cm-1 scattering peaks of assigning to the vibrational modes of A1g and E2g types is dependent on the constructive molecular structure of the heterocyclic condensed benzene ring in sample. Before 2100 ℃ the change of the molecular structure of carbon body occurred markelly, the order increases and the disorder zone decreases. When the temperature reach to 2800 ℃ the sample transformation into sixangular plane layer graphite structure of D6h space group attributed. In addition the value of carbon microcrystalline size (La) for sample have been estimated in a temperature range between 1000 ℃ and 1700 ℃. It is found that the La value was grew gradually.
出处
《高分子材料科学与工程》
EI
CAS
CSCD
北大核心
1998年第1期101-103,共3页
Polymer Materials Science & Engineering
基金
国家自然科学基金
关键词
喇曼散射
表面结构
薄膜
碳化
石墨化
聚酰亚胺
Raman scattering, surface structure, polyimide thin film, carbonization, graphitization
