[Objective] The properties of butachlor microemulsion were studied for developing a new formulation of new pesticides.[Method]AT method was used to determine the pseudo-ternary phase diagram to confirm the formulation...[Objective] The properties of butachlor microemulsion were studied for developing a new formulation of new pesticides.[Method]AT method was used to determine the pseudo-ternary phase diagram to confirm the formulation of butachlor microemulsion.Through the measurement of electrical conductivity,the W/O and O/W types in microemulsion region of butachlor/emulsifier/water system were confirmed and the change of phase behavior during preparation process was discussed.[Result]The dilution stability,low temperature stability,heat stability,ageing stability,density and viscosity etc.of butachlor microemulsion met the requirement of the experiments,which demonstrated the qualified quality of butachlor.The density decreased linearly with the increase of temperature and the change of viscosity with temperature conformed to Andrade equation.[Conclusion]The research was helpful to the application of butachlor microemulsion in pesticide formulation.展开更多
采用Suzuki缩合聚合方法,将4,6-苯并噻二唑单元引入到聚合物中,合成了4,6-苯并噻二唑-咔唑共聚物P1,研究了其光学性质和电化学性质.结果表明,与4,7-位结构类似物(HBC)相比,P1在Mn=12000时仍易溶于甲苯,二氯甲烷等一般的有机溶剂中;其薄...采用Suzuki缩合聚合方法,将4,6-苯并噻二唑单元引入到聚合物中,合成了4,6-苯并噻二唑-咔唑共聚物P1,研究了其光学性质和电化学性质.结果表明,与4,7-位结构类似物(HBC)相比,P1在Mn=12000时仍易溶于甲苯,二氯甲烷等一般的有机溶剂中;其薄膜状态时的紫外吸收光谱和光致发光光谱分别蓝移78和43 nm;光学带宽和电化学带宽分别增大0.35和0.40 e V,而循环伏安曲线的形状不变;说明4,6-位苯并噻二唑单元的引入,有效地改善了苯并噻二唑类聚合物的溶解性能,调节了光电性能,但保留了苯并噻二唑单元优异的电化学稳定性和可逆性.4,6-位苯并噻二唑单元的引入为实现苯并噻二唑类聚合物材料的多性能调节提供了一种新的手段和方法.展开更多
基金Supported by Henan Innovation Project for University Prominent Research Talents(2004KYCX010)~~
文摘[Objective] The properties of butachlor microemulsion were studied for developing a new formulation of new pesticides.[Method]AT method was used to determine the pseudo-ternary phase diagram to confirm the formulation of butachlor microemulsion.Through the measurement of electrical conductivity,the W/O and O/W types in microemulsion region of butachlor/emulsifier/water system were confirmed and the change of phase behavior during preparation process was discussed.[Result]The dilution stability,low temperature stability,heat stability,ageing stability,density and viscosity etc.of butachlor microemulsion met the requirement of the experiments,which demonstrated the qualified quality of butachlor.The density decreased linearly with the increase of temperature and the change of viscosity with temperature conformed to Andrade equation.[Conclusion]The research was helpful to the application of butachlor microemulsion in pesticide formulation.
文摘采用Suzuki缩合聚合方法,将4,6-苯并噻二唑单元引入到聚合物中,合成了4,6-苯并噻二唑-咔唑共聚物P1,研究了其光学性质和电化学性质.结果表明,与4,7-位结构类似物(HBC)相比,P1在Mn=12000时仍易溶于甲苯,二氯甲烷等一般的有机溶剂中;其薄膜状态时的紫外吸收光谱和光致发光光谱分别蓝移78和43 nm;光学带宽和电化学带宽分别增大0.35和0.40 e V,而循环伏安曲线的形状不变;说明4,6-位苯并噻二唑单元的引入,有效地改善了苯并噻二唑类聚合物的溶解性能,调节了光电性能,但保留了苯并噻二唑单元优异的电化学稳定性和可逆性.4,6-位苯并噻二唑单元的引入为实现苯并噻二唑类聚合物材料的多性能调节提供了一种新的手段和方法.