高校化学工程学报
高校化學工程學報
고교화학공정학보
JOURNAL OF CHEMICAL ENGINEERING OF CHINESE UNIVERSITIES
2014年
5期
1132-1138
,共7页
戴明东%周艺峰%夏春苗%徐晓玲%聂王焰%宋林勇
戴明東%週藝峰%夏春苗%徐曉玲%聶王燄%宋林勇
대명동%주예봉%하춘묘%서효령%섭왕염%송림용
可聚合乳化剂%细乳液聚合%聚苯乙烯/氯菊酯纳米胶囊%衣康酸单十二酯丙基磺酸钠
可聚閤乳化劑%細乳液聚閤%聚苯乙烯/氯菊酯納米膠囊%衣康痠單十二酯丙基磺痠鈉
가취합유화제%세유액취합%취분을희/록국지납미효낭%의강산단십이지병기광산납
polymerizable emulsifier%miniemulsion polymerization%polystyrene/permethrin nanocapsules%sodium sulfopropyl-lauryl-itaconate
合成了可聚合乳化剂衣康酸单十二酯丙基磺酸钠,并将其应用于细乳液聚合法制备聚苯乙烯/氯菊酯纳米胶囊。考察了引发剂类型、乳化剂用量、交联剂和助稳定剂对聚苯乙烯/氯菊酯纳米胶囊粒径、包覆率的影响。采用红外光谱、核磁共振、质谱和透射电镜等表征手段对衣康酸单十二酯丙基磺酸钠的结构和聚苯乙烯/氯菊酯纳米胶囊的形貌进行了研究。研究结果表明:当衣康酸单十二酯丙基磺酸钠的用量占油相质量1.33%时,所制得的纳米胶囊粒径分布均匀,大小在500 nm左右;相比水溶性引发剂,油溶性引发剂引发聚合制得的纳米胶囊具有较大的包覆量;交联剂和助稳定剂的加入有助于对氯菊酯的包覆。
閤成瞭可聚閤乳化劑衣康痠單十二酯丙基磺痠鈉,併將其應用于細乳液聚閤法製備聚苯乙烯/氯菊酯納米膠囊。攷察瞭引髮劑類型、乳化劑用量、交聯劑和助穩定劑對聚苯乙烯/氯菊酯納米膠囊粒徑、包覆率的影響。採用紅外光譜、覈磁共振、質譜和透射電鏡等錶徵手段對衣康痠單十二酯丙基磺痠鈉的結構和聚苯乙烯/氯菊酯納米膠囊的形貌進行瞭研究。研究結果錶明:噹衣康痠單十二酯丙基磺痠鈉的用量佔油相質量1.33%時,所製得的納米膠囊粒徑分佈均勻,大小在500 nm左右;相比水溶性引髮劑,油溶性引髮劑引髮聚閤製得的納米膠囊具有較大的包覆量;交聯劑和助穩定劑的加入有助于對氯菊酯的包覆。
합성료가취합유화제의강산단십이지병기광산납,병장기응용우세유액취합법제비취분을희/록국지납미효낭。고찰료인발제류형、유화제용량、교련제화조은정제대취분을희/록국지납미효낭립경、포복솔적영향。채용홍외광보、핵자공진、질보화투사전경등표정수단대의강산단십이지병기광산납적결구화취분을희/록국지납미효낭적형모진행료연구。연구결과표명:당의강산단십이지병기광산납적용량점유상질량1.33%시,소제득적납미효낭립경분포균균,대소재500 nm좌우;상비수용성인발제,유용성인발제인발취합제득적납미효낭구유교대적포복량;교련제화조은정제적가입유조우대록국지적포복。
Sodium sulfopropyl-lauryl-itaconate (a polymerizable emulsifier) was synthesized and used as a surfactant in the preparation of polystyrene /permethrin nanocapsules via miniemulsion polymerization. Effects of initiators, emulsifier contents, cross-linking agents and co-stabilizers on the morphology and encapsulation efficiency of the nanocapsules were investigated. Transmission electron microscope (TEM), Fourier transform infrared spectroscopic (FT-IR), mass spectrometry (MS), hydrogen nuclear magnetic resonance spectrum (1H-NMR) analysis were used to characterize the structure and properties of the nanocapsules. The results show that when the mass fraction of the emulsifier in oil phase is 1.33%, the obtained nanocapsules are highly uniform with an average diameter of 500 nm. Compared with water-soluble initiators, the use of an oil-soluble initiator can facilitate the encapsulation of permethrin. The addition of cross-linking agents and co-stabilizers are also helpful to encapsulate permethrin.
