山东大学学报(理学版)
山東大學學報(理學版)
산동대학학보(이학판)
JOURNAL OF SHANDONG UNIVERSITY(NATURAL SCIENCE)
2015年
1期
70-75
,共6页
宋艳朵%邵国俊%王蕊%茹淼焱
宋豔朵%邵國俊%王蕊%茹淼焱
송염타%소국준%왕예%여묘염
聚苯胺%聚酯片%酸处理%吸附量%粘附性
聚苯胺%聚酯片%痠處理%吸附量%粘附性
취분알%취지편%산처리%흡부량%점부성
polyaniline%polyester%acid treatment%adsorbance%adhesion
以盐酸为掺杂剂,过硫酸铵(APS)为氧化剂,采用原位聚合的方法制备了导电聚酯片(PET)。为了增大导电高分子聚苯胺(PANI)在合成基材聚酯片表面的吸附量和黏附性,在苯胺聚合前对聚酯片进行酸处理。酸处理对聚酯片表面润湿性、化学组成及形貌的影响分别采用接触角测试仪、X射线光电子能谱仪、扫描电镜进行表征。苯胺聚合后聚酯片质量变化用于评估聚苯胺在聚酯片表面吸附量的大小。1-甲基-2-吡咯烷酮清洗后导电聚酯片颜色和电导率的变化用于判断聚苯胺在聚酯片表面的黏附性大小。实验结果表明,酸处理有效地提高了聚苯胺在聚酯片表面的吸附量和黏附性。该方法制备的导电聚酯片有望直接作为导电器件使用,可在一定程度上提高聚苯胺的可加工性。
以鹽痠為摻雜劑,過硫痠銨(APS)為氧化劑,採用原位聚閤的方法製備瞭導電聚酯片(PET)。為瞭增大導電高分子聚苯胺(PANI)在閤成基材聚酯片錶麵的吸附量和黏附性,在苯胺聚閤前對聚酯片進行痠處理。痠處理對聚酯片錶麵潤濕性、化學組成及形貌的影響分彆採用接觸角測試儀、X射線光電子能譜儀、掃描電鏡進行錶徵。苯胺聚閤後聚酯片質量變化用于評估聚苯胺在聚酯片錶麵吸附量的大小。1-甲基-2-吡咯烷酮清洗後導電聚酯片顏色和電導率的變化用于判斷聚苯胺在聚酯片錶麵的黏附性大小。實驗結果錶明,痠處理有效地提高瞭聚苯胺在聚酯片錶麵的吸附量和黏附性。該方法製備的導電聚酯片有望直接作為導電器件使用,可在一定程度上提高聚苯胺的可加工性。
이염산위참잡제,과류산안(APS)위양화제,채용원위취합적방법제비료도전취지편(PET)。위료증대도전고분자취분알(PANI)재합성기재취지편표면적흡부량화점부성,재분알취합전대취지편진행산처리。산처리대취지편표면윤습성、화학조성급형모적영향분별채용접촉각측시의、X사선광전자능보의、소묘전경진행표정。분알취합후취지편질량변화용우평고취분알재취지편표면흡부량적대소。1-갑기-2-필각완동청세후도전취지편안색화전도솔적변화용우판단취분알재취지편표면적점부성대소。실험결과표명,산처리유효지제고료취분알재취지편표면적흡부량화점부성。해방법제비적도전취지편유망직접작위도전기건사용,가재일정정도상제고취분알적가가공성。
The conductive polyester (PET)slice was synthesized by in situ polymerization.Hydrochloric acid was used as the doping agent and ammonium persulfate (APS)was used as the oxidizing agent.The PET substrate was pretreated with concentrated sulfuric acid before aniline polymerization for the purpose of improving the adsorbance and adhesion of polyaniline (PANI)coating on the PET substrate.The changes of wettability,chemical composition and morphology of the PET after acid treatment was characterized by contact angle goniometer,X-ray photoelectron spectroscopy (XPS) and field emission scanning electron microscopy (SEM).The weighting method according to the weight change of the PET substrate after aniline polymerization was used to assess the capacity of PANI grafting on the PET slice.The wash-ing fastness of PANI on PET can be evaluated by the changes of conductivity and colour after washing with 1-methyl-2-pyrrolidone (NMP).The conductivity of the samples was performed with a four-point probe conductivity tester.The experimental results indicated that when the PET was treated with acid solution,the PET macromolecular chain was bro-ken and the functional groups were formed,so the wettability,the polar groups and the roughness of PET surface was increase,which was helpful to increase the adsorbance of PANI and enhance the interaction of PANI and PET.The con-ductive PET prepared by this method is expected to be directly used as the conductive device,which can improve the processability of PANI in a certain extent.
