| 1. | Effects of transfort layers on luminescence efficiency of organic bilayer devices 输运层对双层器件电致发光效率的影响 |
| 2. | A study and comparison of up - conversion luminescence efficiency in four er3 yb3 co - doped glasses 共掺四种玻璃中上转换发光效率的比较及研究 |
| 3. | This could increase the work function of ito , which would decrease the device threshold voltage and increase the luminescence efficiency consequently 因此,采用氧等离子体处理的ito薄膜作为oled的阳极将降低发光器件的开启电压,提高其发光效率。 |
| 4. | Organic and polymer electroluminescence materials have attracted much interest because of its high luminescence efficiency , full color , processable and so on 有机电致发光材料由于具有高发光效率,亮度和颜色可调,易加工成膜等优良特性,引起了人们的极大兴趣。 |
| 5. | In order to clarify the origin of pl and enhance the luminescence efficiency of materials , the study of the relationship between preparation process and pl properties is very important 对制备方法及其工艺参数对薄膜荧光特性影响的研究,不仅可以进一步澄清各荧光带的起因,而且也是提高材料发光性能的重要途径。 |
| 6. | Based on the above work , the optical absorption and photoluminescence ( pl ) properties of a - sinx : h films with different compositions are studied through ultraviolet - visible spectroscopy ( uv - vis ) and time - resolved photoluminescence ( tr - pl ) , the dependence of pl intensity decay on emission photon energy is found , the luminescence mechanism of nanosilicon embedded in silicon nitride matrix is presented , finally , the effective approaches to improving the luminescence efficiency of a - sinx : h films are discussed 在此基础上,通过紫外-可见光谱( uv - vis )技术,时间分辨光致发光谱技术研究了不同组分的富硅a - sin _ x : h薄膜的光吸收和光辐射特性,得到了材料光致发光衰减和辐射光子能量之间的关系,提出了镶嵌在氮化硅中的纳米硅的发光机制,进而探讨了提高纳米硅薄膜发光效率的有效途径。 |
| 7. | Semiconductor luminescence materials and devices were developed as one of semiconductor technology in 1960 . the luminescence devices made with the materials had developed quickly . but the pure semiconductor materials could not better because the luminescence efficiencies were lower . doping is very important in order to improve the luminescence efficiency 半导体发光材料和器件是六十年代发展起来的半导体技术中的一个分支,单一的纯净本征半导体的性能往往不能满足实际的需要,发光效率或发光几率低,发光强度弱,提高发光效率的有效途径就是进行材料的掺杂改性。 |