UC知道再麻烦你翻译一段 实验
来源:百度知道 编辑:UC知道 时间:2024/09/24 22:07:33
by stirring overnight in THF under inert atmosphere. The solution
was then filtered through a 1.6 ím filter and further diluted to a
concentration of 20 ppm. A 2 mL quantity of the polymer/THF
solution was added quickly to 8 mL of deionized water while
sonicating the mixture. The suspension was filtered with a 0.2 ím
membrane filter. The THF was removed by partial evaporation under
vacuum, followed by filtration through a 0.2 ím filter. The overall
yield of the nanoparticles was typically higher than 80%. The resulting
nanoparticle dispersions were clear, with colors similar to those of
the polymers in THF solution.
Silica Encapsulation. The silica encapsulation is achieved by a
two-step method. At the first step of nanoparticle preparation, 0.05
g of OTMOS in ethanol solution (0.08%) was added to 10 mL of
a 5 ppm nanoparticle dispersion before the evaporatio
纳米粒子的制备。共轭聚合物在惰性气体氛围下,于THF(四氢呋喃)中搅拌一个晚上加以溶解。然后将该溶液通过一个1.6im的过滤器过滤,并进一步稀释到20ppm的浓度。将2mL数量的聚合物/THF溶液迅速加到8mL的去离子水中,同时声波降解(sonicating)该混合物。该悬浮液用一个0.2im的膜过滤器过滤。THF用部分蒸发在真空下去除,然后哦通过一个0.2im的过滤器过滤。纳米粒子的整个产率典型来说能超过80%。最终的纳米粒子分散体是清澈的,颜色类似于聚合物在THF溶液中的颜色。
二氧化硅包封。二氧化硅包封是通过两步法实现的。在纳米粒子制备的第一步,在乙醇溶液中的0.05gOTMOS(正辛基三乙氧基硅烷)(0.08%)被加到10mL的5ppm纳米粒子分散体内,然后让THF蒸发,再摇晃30min。然后将THF用部分真空蒸发方法去除。二氧化硅
壳层的进一步生长是基于活性二氧化硅的聚合作用。活性二氧化硅的溶液是将0.54%的硅酸钠(水玻璃)溶液的pH值通过逐步添加阳离子交换树脂(Amberlite IR120,16-50孔目)降低到10-11而制备的。一份0.5mL的活性二氧化硅被添加到10mL的硅烷改性聚合物纳米粒子的悬浮液中。让该混合物放置在激烈的搅拌下24h,从而使活性二氧化硅聚合到纳米粒子表面上。二氧化硅壳层的厚度在24h后大约是2~4nm。然后将悬浮液对去离子水透析48h,以去除过多的二氧化硅。
金纳米粒子组件的形成。金纳米粒子是根据标准的柠檬酸钠还原法制备的。将一份1.0mL的柠檬酸钠溶液(34mM)加入50mL的沸腾氯金酸溶液(0.25mM)中,同时搅拌。所得到的金纳米粒子具有15nm的平均直径,尺寸分散性为10%。硅烷偶联剂(APTMS)被用于将二氧化硅涂覆的聚合物纳米粒子与金纳米粒子组合起来。一份20iL的APTMS溶液(0.2%质量分数)被二氧化硅包封的PFPV纳米粒子(5mL,16nM)的悬浮液中,并摇晃1h。APTMS的量加以计算以涂覆具有一层单分子层的纳米粒子。然后,一份5mL的胺官能化PFPV纳米粒子(16nM)用5mL的金纳米粒子(1nM)混合。该混合物放置2h,然后进行分光测量。类似的步骤也被用于组合含有金纳米粒子的MEH-PPV,得到的悬浮液分别含有12nM浓度的MEH-PPV和0.5nM浓度的金。<