韩卫荣,王欣,王志刚,朱巍,周殿元,于宏伟.聚丙烯C—H 弯曲振动二维红外光谱研究[J].包装工程,2015,36(21):7-10,27.
HAN Wei-rong,WANG Xin,WANG Zhi-gang,ZHU Wei,ZHOU Dian-yuan,YU Hong-wei.Two-dimensional Infrared Spectroscopy Study of Polypropylene C—H Bending Vibration[J].Packaging Engineering,2015,36(21):7-10,27. |
| 聚丙烯C—H 弯曲振动二维红外光谱研究 |
| Two-dimensional Infrared Spectroscopy Study of Polypropylene C—H Bending Vibration |
| 投稿时间:2015-02-24 修订日期:2015-11-10 |
| DOI: |
| 中文关键词: 一维红外光谱 二阶导数红外光谱 四阶导数红外光谱 二维红外光谱 聚丙烯 |
| 英文关键词: one-dimensional infrared spectroscopy second derivative infrared spectroscopy fourth derivative infrared spectroscopy two-dimensional infrared spectroscopy polypropylene |
| 基金项目:石家庄学院校级科研平台 (XJPT008) |
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| 中文摘要: |
| 目的 通过二维红外光谱技术研究温度对聚丙烯化学结构的影响。方法 在1500~1350 cm-1的频率范围内, 分别测定聚丙烯C—H弯曲振动模式(δC-H)的一维红外光谱、 二阶导数红外光谱和四阶导数红外光谱来确定聚丙烯分子结构, 后采用二维红外光谱研究温度对聚丙烯 δC-H 红外吸收强度的影响。结果 聚丙烯 δC-H 主要包括甲基不对称碳氢弯曲振动模式 (δasCH3)、 甲基对称碳氢弯曲振动模式(δsCH3)和亚甲基碳氢弯曲振动模式(δCH2), 随着测定温度的升高, 聚丙烯分子中 δC-H 红外吸收强度变化快慢顺序为δCH2-( 2 1464 cm-1) >δCH2-( 1 1475 cm-1) >δasCH( 3 1455 cm-1) >δsCH( 3 1375 cm-1)。结论 二维红外光谱在有机高分子包装材料热变性分析具有重大作用。 |
| 英文摘要: |
| The effect of temperature on the chemical structure of polypropylene was studied using two-dimensional infrared spectroscopy. In the frequency range of 1500~1350 cm-1, the molecular structure of polypropylene was studied by one-dimensional infrared spectroscopy, second derivative infrared spectroscopy and fourth derivative infrared spectroscopy of C-H bending vibration(δC-H) . Two-dimensional infrared spectroscopy was then used to study the effect of temperature on the δC-H infrared absorbance intensity of polypropylene. The polypropylene δC-H mainly included methyl asymmetrical bending vibration mode (δasCH3), methyl symmetrical bending vibration mode (δsCH3) and methylene bending vibration mode (δ CH2). With increase of the measurement temperature, the sequence of intensity changes in the δ C-H infrared absorbance intensity of polypropylene was δ CH2-2(1464 cm-1)>δ CH2-1(1475 cm-1)>δ asCH3(1455 cm-1)>δ sCH3(1375 cm-1) . The study demonstrated the key roles of two-dimensional infrared spectroscopy in the analysis of thermal denaturation of the polymer packaging materials. |
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