稀有金属材料与工程
稀有金屬材料與工程
희유금속재료여공정
RARE METAL MATERIALS AND ENGINEERNG
2009年
z2期
602-605
,共4页
宋亚玉%苗鸿雁%谈国强%刘剑%贺忠亮%于志伟%夏傲
宋亞玉%苗鴻雁%談國彊%劉劍%賀忠亮%于誌偉%夏傲
송아옥%묘홍안%담국강%류검%하충량%우지위%하오
自组装技术%OTS%功能化
自組裝技術%OTS%功能化
자조장기술%OTS%공능화
self-assembled technique%alkyltrichorosilane%surface functionalization
采用分子自组装技术在羟基化的玻璃基片表面成功制备了十八烷基三氯硅烷单层膜 (OTS-SAMs).运用接触角测试仪测定了水在自组装薄膜表面的接触角;用原子力显微镜(AFM)分析了OTS-SAMs的表面形貌,并对经过紫外线照射改性的OTS-SAMs薄膜表面进行分析.结果表明:该组装膜具有很好的疏水性,其对水的接触角高达105°;在组装初期2 min内,十八烷基三氯硅烷水解产物主要是与基体表面的羟基发生聚合反应,表现为岛状物结构团簇,随着组装时间的增加,基体表面的有机硅烷分子之间发生聚合反应,当组装15 min后,成膜过程趋于稳定,可以在基体表面形成平整致密的自组装薄膜;经过紫外线照射改性后的薄膜表面亲水性明显提高,在2 h时达到了很好的羟基化效果.
採用分子自組裝技術在羥基化的玻璃基片錶麵成功製備瞭十八烷基三氯硅烷單層膜 (OTS-SAMs).運用接觸角測試儀測定瞭水在自組裝薄膜錶麵的接觸角;用原子力顯微鏡(AFM)分析瞭OTS-SAMs的錶麵形貌,併對經過紫外線照射改性的OTS-SAMs薄膜錶麵進行分析.結果錶明:該組裝膜具有很好的疏水性,其對水的接觸角高達105°;在組裝初期2 min內,十八烷基三氯硅烷水解產物主要是與基體錶麵的羥基髮生聚閤反應,錶現為島狀物結構糰簇,隨著組裝時間的增加,基體錶麵的有機硅烷分子之間髮生聚閤反應,噹組裝15 min後,成膜過程趨于穩定,可以在基體錶麵形成平整緻密的自組裝薄膜;經過紫外線照射改性後的薄膜錶麵親水性明顯提高,在2 h時達到瞭很好的羥基化效果.
채용분자자조장기술재간기화적파리기편표면성공제비료십팔완기삼록규완단층막 (OTS-SAMs).운용접촉각측시의측정료수재자조장박막표면적접촉각;용원자력현미경(AFM)분석료OTS-SAMs적표면형모,병대경과자외선조사개성적OTS-SAMs박막표면진행분석.결과표명:해조장막구유흔호적소수성,기대수적접촉각고체105°;재조장초기2 min내,십팔완기삼록규완수해산물주요시여기체표면적간기발생취합반응,표현위도상물결구단족,수착조장시간적증가,기체표면적유궤규완분자지간발생취합반응,당조장15 min후,성막과정추우은정,가이재기체표면형성평정치밀적자조장박막;경과자외선조사개성후적박막표면친수성명현제고,재2 h시체도료흔호적간기화효과.
The octadecyltrichlorosilane (OTS) monolayers on hydroxylated glass substrates was prepared by self-assembled technique in this experiment. The water contact angle of self-assembled monolayers was measured with contact angle tester. The atomic force microscope (AFM) was used to study the morphology of OTS-SAMs and the surface modification of OTS-SAMs via UV radiation technique. The results indicated that the OTS-SAMs had excellent hydrophobic and its water contact angle is as high as 105°, that within 2 minutes, the hydrolytic of octadecyltrichlorosilane mainly has the polyreaction with the hydroxy on substrate surface, OTS-SAMs has been formed on whole substrate with an "island" growth mode and 15 minutes later, the formation of OTS-SAMs goes stable with the layers smooth and dense. The hydroxy of its surface via UV radiation technique increased sizably and the surface reaches a good effect of hydroxylation within 2 h.
