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第 35 卷第 8 期                             精   细   化   工                                  Vol.35, No.8
             201 8 年 8 月                             FINE CHEMICALS                                 Aug.  2018


              功能材料
                    溶剂蒸发法制备高效氯氟氰菊酯微胶囊及性能



                            冯建国,孙陈铖,钱   坤,张省委,沈亚明,陈麒丞

                                     (扬州大学  园艺与植物保护学院,江苏  扬州  225009)


                 摘要:以乙基纤维素为壁材、二氯甲烷为溶剂,采用溶剂蒸发法制备了高效氯氟氰菊酯微胶囊。通过单因素实
                 验考察了溶剂质量分数、壁材质量分数、乳化剂质量分数和剪切时间对微胶囊平均粒径的影响,通过以微胶囊
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                 平均粒径和未包封率作为评价指标的正交实验 L 9 (3 )优选了最佳工艺,并通过 SEM、FTIR 和 HPLC 对微胶囊的
                 外观形貌、包覆效果和释放性能进行了表征。结果表明:随着溶剂质量分数增大,微胶囊平均粒径先减小后增大,
                 w(溶剂)=25%时,平均粒径最小。随着壁材质量分数增大,微胶囊平均粒径增大。随着乳化剂质量分数增大,
                 微胶囊平均粒径逐渐减小。固定剪切速率,微胶囊平均粒径随着剪切时间增加而减小。以 w(二氯甲烷)=25%、
                 w(乙基纤维素)=0.75%、w(乳化剂)〔m(Tween80)∶m(Span20)=5∶1〕=2%、剪切时间为 8 min 的工艺条件下
                 得到的微胶囊外观光滑,形态规则,粒径较小(约 19.2 μm)且均匀,包封率高达 82.8%,且具有较好的缓释性能。
                 关键词:高效氯氟氰菊酯;微胶囊;溶剂蒸发法;正交实验设计;缓释性能;功能材料
                 中图分类号:TQ450.4      文献标识码:A     文章编号:1003-5214 (2018) 08-1271-07



                              Preparation and Properties of Lambda-cyhalothrin
                                Microcapsules by Solvent Evaporation Method


                 FENG Jian-guo, SUN Chen-cheng, QIAN Kun, ZHANG Sheng-wei, SHEN Ya-ming,CHEN Qi-cheng
                       (School of Horticulture and Plant Protection, Yangzhou University, Yangzhou 225009, Jiangsu, China)


                 Abstract: Lambda-cyhalothrin microcapsules  were  prepared by solvent evaporation method  using ethyl
                 cellulose as  wall  material and  dichloromethane as solvent. The amount of solvent,  the amount  of wall
                 material, the amount of emulsifier and the shearing time were varied step by step to study their influence on
                 the average particle size of microcapsules. The technical conditions for the preparation of microcapsules
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                 were optimized by the orthogonal experiment design L9(3 ) with average particle size and non-entrapment
                 efficiency as evaluation index. Furthermore, the appearance, encapsulation effect and release property of
                 microcapsules were characterized by SEM, FTIR and HPLC. The results showed that the average particle
                 size of microcapsules at first decreased and then increased with the increase of solvent amount, and the
                 average particle size was the smallest when the amount of solvent was 25% (mass fraction, the same below).
                 As the amount of wall material increased, the average particle size of microcapsules increased. However,
                 when the amount of emulsifier increased, the average particle size of microcapsules decreased. At a fixed
                 shear rate, the average particle size of microcapsules decreased with increasing shearing time. Under the
                 optimum conditions  of  25% dichloromethane,  0.75% ethyl cellulose, 2% emulsifier  [m(Tween80)∶
                 m(Span20)=5∶1], and shearing time of  8 min, the  prepared microcapsules  had smooth  appearance and
                 regular morphology, small(approximately 19.2 μm) and uniform particle size, with a entrapment efficiency
                 as high as 82.8%, and exhibited good sustained-release properties.
                 Key words: lambda-cyhalothrin; microcapsules; solvent evaporation  method;  orthogonal experimental
                 design; sustained-release property; functional materials
                 Foundation items: Research  Foundation for  Basic Research (Natural Science Foundation for Young

                 收稿日期:2017-09-20;  定用日期:2017-11-22; DOI: 10.13550/j.jxhg.20170584
                 基金项目:江苏省基础研究计划(自然科学基金)——青年基金项目(BK20170489);扬州市基础研究计划(自然科学基金)——青
                 年科技人才项目(YZ2016104);江苏省大学生实践创新训练计划(201711117053Y)
                 作者简介:冯建国(1983—),男,讲师,博士,E-mail:jgfeng@yzu.edu.cn。
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