西南科技大学学报
西南科技大學學報
서남과기대학학보
JOURNAL OF SOUTHWEST CHINA INSTITUTE OF TECHNOLOGY
2012年
4期
15-19
,共5页
韩青霞%宋丽贤%张平%谷铮%黄樯%康明%黄渝鸿
韓青霞%宋麗賢%張平%穀錚%黃檣%康明%黃渝鴻
한청하%송려현%장평%곡쟁%황장%강명%황투홍
含氟二胺%聚酰亚胺薄膜%透明性%热性能
含氟二胺%聚酰亞胺薄膜%透明性%熱性能
함불이알%취선아알박막%투명성%열성능
Fluorinated diamine%Polyimide film%Optical transparency%Thermal properties
为改善聚酰亚胺薄膜的透明性和溶解性,通过Williamson醚化反应较高产率地合成出高纯度的2,2-双[4-(4-氨基-2-三氟甲基苯氧基)苯基]丙烷,该含氟二胺与3,3'4,4'-联苯四酸二酐(BPDA)在溶剂中缩聚得到聚酰胺酸,热亚胺化得到玻璃化转变温度Tg为350.2℃、在氮气中10%热失重温度为539.8℃、紫外截止波长为390nln的含氟透明聚酰亚胺,并合成了联苯二酐/二苯醚二胺薄膜BPDA—ODA,通过对两种薄膜热稳定性、透光率、溶解性能的比较发现,在聚酰亚胺分子结构中引入氟原子,在不改变其热稳定性的前提下,可明显改善聚酰亚胺的透明性和溶解性。
為改善聚酰亞胺薄膜的透明性和溶解性,通過Williamson醚化反應較高產率地閤成齣高純度的2,2-雙[4-(4-氨基-2-三氟甲基苯氧基)苯基]丙烷,該含氟二胺與3,3'4,4'-聯苯四痠二酐(BPDA)在溶劑中縮聚得到聚酰胺痠,熱亞胺化得到玻璃化轉變溫度Tg為350.2℃、在氮氣中10%熱失重溫度為539.8℃、紫外截止波長為390nln的含氟透明聚酰亞胺,併閤成瞭聯苯二酐/二苯醚二胺薄膜BPDA—ODA,通過對兩種薄膜熱穩定性、透光率、溶解性能的比較髮現,在聚酰亞胺分子結構中引入氟原子,在不改變其熱穩定性的前提下,可明顯改善聚酰亞胺的透明性和溶解性。
위개선취선아알박막적투명성화용해성,통과Williamson미화반응교고산솔지합성출고순도적2,2-쌍[4-(4-안기-2-삼불갑기분양기)분기]병완,해함불이알여3,3'4,4'-련분사산이항(BPDA)재용제중축취득도취선알산,열아알화득도파리화전변온도Tg위350.2℃、재담기중10%열실중온도위539.8℃、자외절지파장위390nln적함불투명취선아알,병합성료련분이항/이분미이알박막BPDA—ODA,통과대량충박막열은정성、투광솔、용해성능적비교발현,재취선아알분자결구중인입불원자,재불개변기열은정성적전제하,가명현개선취선아알적투명성화용해성。
High purity 2,2 - bis [ 4 - (2 - trifluoromethyl - 4 - aminophenoxy) phenyl ] propane was ob- tained productively through Williamson etherification reaction to improve transparency and solubility of polyimide film. The fluorinated transparent polyimide (PI) film was prepared from the fluorinated diamine and 3,3',4,4'- biphenyltetracarboxylic acid dianhydride(BPDA) in the solvent by thermal imidization of the polyamic acid. Its glass transition temperature Tg was 350.2 ℃, the 10% weight loss temperature was 539.8 ℃ in nitrogen and the UV cut off wavelength was 390 nm. At the same time, the polyimide film BPDA- ODA was composed via the same the method. Compared to the thermal stability, transmittance, and solubility property of the two kinds of film, the transparency and solubility of the polyimide was obvi- ously improved under the introduction of fluorine atoms in the molecular structure of polyimide and the oremise that does not chan~e its thermal stability.