摘要
在十八烯体系中合成Cd S量子点,用光诱导法制备银纳米粒子,并将两者复合,制备成4种复合样品,分析复合样品的荧光谱,在银纳米颗粒的表面等离子体共振峰分别对应于富含缺陷的硫化镉量子点的带边荧光峰和表面态荧光峰时,发生了带边荧光淬灭而表面态荧光增强的现象.结果表明,通过控制金属和量子点之间的距离,能够控制带边荧光辐射和缺陷带荧光辐射的比例,从而控制白光量子点的色温.采用395 nm紫光LED作为激发光源,将涂有荧光样品的玻片与激发光源组装成银纳米颗粒/量子点复合结构白光照明器件原型,银纳米粒子能够改变Cd S量子点样品发光颜色,荧光效应的增强程度随着量子点样品的厚度减小而加强.该研究为认识荧光物质和金属之间的相互作用提供了新途径,同时探讨了该器件在变色发光材料方向的应用前景.
CdS nanocrystals are prepared in the oleic system, and Ag nanoparticles are prepared with light in- duced. Two of them are combined into four kinds of composite samples to investigate the phenomenon that Ag nanoparticles always quench the band-edge emission and enhance the surface-state emission regardless of the SPR wavelength. Experimental results show that the color of quantum dots' fluorescence could be changed because the proportion of the band-edge emission and the surface-state emission could be controlled by the distance between CdS quantum dots and silver nanoparticles. Then a white light Emitting CdS quantum dots device enhanced by silver nanoparticles is designed using 395 nm wavelength violet-LEDs as excitation light source, CdS quantum dots/silver nanoparticles samples and tinfoil which can block the extra light. From the picture of real products, it shows that Ag nanoparticles can change the color of quantum dots' fluorescence and enhance the photoluminescence which would become stronger when CdS quantum dots and Ag nanoparticles become closer. This investigation not only provides a new approach to study the interaction between fluorescent material and metal, but also discusses the device's promising application in color-changed luminescent materials.
出处
《华南师范大学学报(自然科学版)》
CAS
北大核心
2015年第6期32-36,共5页
Journal of South China Normal University(Natural Science Edition)
基金
广东省高层次人才项目(61378082)
关键词
硫化镉白光量子点
表面态荧光
金属纳米颗粒
荧光增强
CdS white light emitting QDs
surface-state emission
Ag nanoparticles
photoluminescence enhancement
