| 1. | Research and development for antibacterial materials of silver nanoparticle 纳米银抗菌材料研发现状 |
| 2. | Preparation of silver nanoparticles by hydrothermal reduction of ethylene glycol 乙二醇水热还原法制备纳米银 |
| 3. | A study on the bio - safety for nano - silver as anti - bacterial materials 纳米银作为抗菌材料的生物安全性研究进展 |
| 4. | Dehumidifying laundry drying air purifying double purifying : ionizing nano silver purifying 双重空气净化:负离子空气净化装置全新纳米银过滤系统 |
| 5. | This experiment optimized the performances of zp and ag0n an effective way to fix the mediator was put forward in our paper 本实验优化了纳米银和磷酸锆的性能,提出了一种介体固定的有效方法。 |
| 6. | The zirconium phosphate reduced the agglomeration degree of the anodize silver colloid in aqueous medium and improved the catalytic activity of ag0n 3 、首次合成了纳米银-磷酸锆复合材料,其吸附中性红后用于修饰玻碳电极。 |
| 7. | The nanosize silver particles were characterized by using transmission electron microscopy ( tem ) , uv - vis absorption spectroscopy and x - ray diffraction ( xrd ) 利用透射电子显微镜,紫外可见吸收光谱和x射线衍射对纳米银粒子进行表征。 |
| 8. | The results showed that the nanosize silver particles produced by this method are pure and spherical with uniform and narrow - dispersed size distribution 结果表明,该法制备的纳米银粒子杂质含量低,粒度分布集中,颗粒均匀一致,形貌呈球形。 |
| 9. | Nanosize silver particles have been prepared by reduction of aqueous solution of agno3 in the presence of polyvinylpyrrolidone , ethanol and de - ionized water , hydrazine hydrate was used for the reduction 摘要采用聚乙烯吡咯烷酮、无水乙醇和去离子水混合溶液,利用水合肼还原硝酸银制备纳米银粒子。 |
| 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。 |