| 1. | Studies on amplified assay of surface plasmon resonance immunosensing
表面等离子体共振免疫传感的放大检测研究 |
| 2. | Metal nanoparticles display unique optical applications due to the resonance of surface plasmons
金属纳米颗粒由于其表面等离子体共振性质表现出独特的光学应用。 |
| 3. | Surface plasmon resonance technique ; immunosensor ; amplified assay ; streptavidinbiotinylated antibody complex
表面等离子体共振技术免疫传感器放大检测链霉亲和素-生物素化抗体复合物 |
| 4. | Plasmonic behavior of metal is a physical concept that describes the collective oscillation of conducting electrons in it
金属中的表面等离子体共振是描述其导带电子在电磁场作用下集体振荡的一个物理概念。 |
| 5. | These chemical sensors may be based on the principles of surface plasmon resonance , interferometry , spectriphotometry or fluorimetry
这些化学传感器基于表面等离子体共振、干涉、光谱测量或荧光测量等原理。 |
| 6. | Plasmonic behavior of metal is a physical concept that describes the collective oscillation of conducting electrons in it
摘要金属中的表面等离子体共振是描述其导带电子在电磁场作用下集体振荡的一个物理概念。 |
| 7. | Effects of molecules adsorbed on silver nanoparticles assembled in two - dimensional submonolayer on surface plasmon resonance ( spr ) of the metal nanoparticles were investigated
摘要通过玻片表面构筑银纳米粒子二维组装结构研究吸附分子对银粒子表面等离子体共振的影响。 |
| 8. | Red shift of the plasmon absorption band was observed after gold particles were assembled into multilayer thin films , and the resulted gold films exhibited a strong surface enhanced raman scattering ( sers ) effect
金纳米粒子组装成膜之后,其表面等离子体共振吸收峰发生红移,薄膜具有明显的表面增强拉曼散射( sers )效应。 |
| 9. | The preparation and applications of different shape and various composite noble metal nanomaterials with the property of surface plasmon resonance are reviewed , and their foresight development and applications are illustrated
本文在相关研究的基础上,综述了具备表面等离子体共振性质的不同形貌及多种复合结构的贵金属纳米材料的制备和应用,并对其发展及应用前景进行了展望。 |
| 10. | We infered that this new absorption band was associated with the effect of charge - transfer transition between adsorbates and colloidal silver particles , not the effect of the surface plasma resonance due to the silver particles aggregation which was usually attributed to in previous research work
我们将其归因于与纳米银颗粒表面间的电荷转移效应( ct ) ,而非通常所认为的因银胶凝聚而产生的表面等离子体共振吸收效应。 |
