摘要
本文用反相微乳液法制备了纳米Ag2S,并用作卤化银乳剂的硫增感剂,研究了其增感效果、增感规律及可能的增感机理.反相微乳液由异辛烷、表面活性剂AOT钠盐和水形成;制得的Ag2S粒径3—5 nm;用制得颗粒增感卤化银乳剂,获得的感光性能优越于用Na2S2O3水溶液增感;增感规律的研究表明,随着乳剂中纳米Ag2S浓度的增加,模型乳剂感光度迅速提高、灰雾变化不大,并在100—200μmol/molAg左右获得最佳感光性能,进一步增加浓度则感光度呈下降趋势、灰雾升高;获得最佳感光性能所需的化学增感时间很短,约40分钟,之后感光度不再增加、灰雾上升;用漫反射光谱(DRS)作探针,跟踪记录增感时卤化银微晶表面上纳米Ag2S增感剂颗粒的演变,为新型纳米增感剂的优异增感特性提供了机理性解释.
In this paper 3--5 nm A492S particles were prepared in the reverse micellar system and used as novel sensitizer in AgCl cubic and ( 100 ) tabular microcrystal emulsions. The novel sensitizer shows an effective sensitizing ability for AgX emulsion, and it is superior to the traditional Na2S2O3 sensitizer because by using it comparatively high sensitivity can be obtained with lower fog density. To illustrate the evolution mechanism of the sensitizer clusters and explain their excellent sensitizing properties, diffuse reflectance spectroscopy (DRS) was used as a probe on the AgX mierocrystal surface.
出处
《影像科学与光化学》
EI
CAS
CSCD
2008年第5期385-392,共8页
Imaging Science and Photochemistry
基金
国家自然科学基金资助项目(20703051)
关键词
卤化银乳剂
硫增感
硫化银
纳米尺度
反相微乳液
silver halide emulsion
sulfur sensitization
silver sulfide
nano-sized
reverse micelles
