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有机膜表面羟基化工艺研究

Research on Hydroxylation Processes Applied to the Surfaces of Organic Films
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摘要 柔性有机膜作为重要的功能材料,在电子器件、封装等许多领域都有广泛的应用。然而,一些有机膜存在亲水性不足、生物相容性差、化学反应活性低等缺点,通过表面处理等方法引入羟基官能团可以增加有机膜的亲水性,改善有机膜的性质和功能,使其更适用于各种应用领域。文章对柔性有机膜表面进行了干法和湿法羟基化处理,并研究羟基化工艺对有机膜亲水性的影响。结果表明,随着湿法羟基化处理时间和温度的增加,有机膜表面水接触角先减小后基本保持不变,随着等离子体处理时间增加,有机膜表面水接触角先减小后增大,同时干法羟基化处理比湿法羟基化处理的表面水接触角低约20°,有机衬底亲水性更好,缩短了处理时间。 Flexible organic films are important functional materials with a wide range of applications in many areas such as electronic devices and packaging.However,some organic films have shortcomings such as insufficient hydrophilicity,poor biocompatibility,and low chemical reactivity.Introducing hydroxyl functional groups through surface treatments can enhance the hydrophilicity of organic films,and improve their properties and functions,making them more suitable for various application fields.This study conducted dry and wet hydroxylation treatments on the surfaces of flexible organic films to investigate the impact of hydroxylation processes on their hydrophilicity.The results indicated that when the wet hydroxylation treatment time and temperature were increased,the water contact angle on the organic film surface initially decreased and then stabilized.In contrast,when the plasma treatment time was increased,the water contact angle first decreased and then increased.Additionally,the water contact angle of a surface treated with dry hydroxylation was approximately 20°lower than that treated with wet hydroxylation,resulting in better hydrophilicity of the organic substrate and a shorter processing time.
作者 杨子鑫 王国政 YANG Zixin;WANG Guozheng(School of Physics,Changchun University of Science and Technology,Changchun 130022,CHN)
出处 《半导体光电》 CAS 北大核心 2024年第4期612-616,共5页 Semiconductor Optoelectronics
关键词 有机膜 羟基化 亲水性 等离子体 organic film hydroxylation hydrophilicity plasma
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