利用变温透射红外光谱方法,通过跟踪聚酰胺酸(PAA)的亚胺化过程,对由均苯四酸二酐和4,4'-二氨基二苯醚合成的聚酰胺酸及经过加热亚胺化后生成的聚酰亚胺(PI)的红外吸收光谱进行分析,对聚酰胺酸和聚酰亚胺的红外谱峰进行合理的归属,发现聚酰胺酸在亚胺化过程中有-COO-和-NH+2存在,-COO-中羰基的对称与反对称伸缩振动分别位于1607和1406 cm-1,NH+2的伸缩振动则有3200、3133、2938、2880、2820和2610 cm-1等多个精细谱带.并根据对-COO-和-NH+2;谱峰的归属,提出聚酰胺酸生成聚酰亚胺的机理为聚酰胺酸中COOH的H+转移到聚酰胺酸中的NH上,形成NH+2,然后脱水环化生成聚酰亚胺.
参考文献
| [1] | Linde H G Interaction of Polyamic Acids and Polyamic Esters with Copper and Substituted Polysilsesquioxane Copolymers[J].J Appl Polym Sci,1992,46(2):353-361. |
| [2] | Nisbino T,Kotera M,Inayoshi N.Residual Stress and Microstructures of Aromatic Polyimide with Different Imidization Processes[J].Polymer,2000,41(18):6913-6918. |
| [3] | Parker S F.The Application of Vibrational Spectroscopy to the Study of Polyimides and Their Composites[J].Vib Spectrosc,1992,3(2):87-104. |
| [4] | Karamancheva l,Stefov V,Soptrajanov B.FTIR Spectroscopy and FTIR Microscopy of Vacuum-evaporated Polyimide Thin Films[J].J Vib Spectrosc,1999,19(2):369-374. |
| [5] | Banerjee S,Madhara M K,Salunke A K.Synthesis and Properties of Fluorinated Polyimides.1.Derived From Novel 4,4"-bis(aminophenoxy) -3,3"-trifluoromethyl Terphenyl[J].J Polym Sci Part A:Polym Chem,2002,40(8):1016-1027. |
| [6] | Zhang Y,Tan K L,Liaw B Y.Thermal lmidizatian of Poly(amic acid) Precursors on Glycidyl Methaerylate(GMA) Graftpolymerized Si(100) Surface[J].Thin Solid Films,2000,374(1):70-79. |
| [7] | Shim J H,Jung L Y,Pyo S W.Organic Thin -film Transistors with ODPA-ODA Polyimide as A Gate Insulator Through Vapor Deposition Polymerization[J].Thin Solid Films,2003,441:284-286. |
| [8] | Xu Y K,Zhan M S,Wang K.Structure and Properties of Polyimide Films During a Far-infrared-induced Imidization Process[J].J Polym Sci Part B:Polym Phys,2004,42(13):2490-2501. |
| [9] | Madhra M K,Sharma M,Banerjee S.Polyimides.Ⅳ.Synthesis and Characterization of Fluorinated Copelyimides[J].J Appl Polym Sci,2004,93(1):235-246. |
| [10] | Yu K H,Yoo Y H,Rhee J M.Synthesis of Poly[(amic acid)-co-(antic ester)]Precursors and Studies of Their Imidization Using FT-IR and FT-Raman Spectroscopy[J].Mater Res lnnovations,2003,7(1):51-56. |
| [11] | Lee S C,Tai F C,Wei C H.ATR-FTIR and Nanoindentation Measurements of PMDA-ODA Polyimide Film under Different Curing Temperature[J].Mater Trans,2007,48 (6):1554-1557. |
| [12] | Lu Y H,Zhan M S.Studies on Polyimide Imidization in Far-infrared Radiation[J].J Polym Sci Part B:Polym Phys,2005,43(24):3621-3627. |
| [13] | Stoffel N C,Chandra S,Kramer E J.Forward Recoil Spectrometry Study of the Diffusion of PMDA/ODA-based Poly(amic ethyl esters)[J].Polymer,1997,38(20):5073-5078. |
| [14] | Ishida H,Wellinghoff S,Baer E.Spectroscopic Studies of Poly[N,N'-bis(phenoxyphenyl)pyromellitimide].1.Structures of the Polyimide and Three Model Compounds[J].Macromolecules,1980,13(4):826-834. |
| [15] | Duran J,Missel L,Montelbano T O.Synthesis of Polyamic Acid.US 4269968[P],1981. |
| [16] | Mckittriek P T,Katon J E.Infrared and Raman Group Frequencies of Cyclic Imides[J].Appl Spectrosc,1990,44 (5):812-817. |
| [17] | Socrates G.Infrared and Raman Characteristic Group Freguencies[M].Chichester:John Wiley & Sons,Ltd.,2001 |
| [18] | DING Mengxian,HE Tianbai.New Polyimide Materials[M].Chapt.1.Beijing:Science Press,1998.(in Chinese)丁孟贤,何天白.聚酰亚胺新型材料[M].第一章.北京:科学出版社1998. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%