PEG的加入有助于提高发光强度,是因为降低了羟基的荧光淬灭。
The luminescent strength is improved owing to decrease the fluorescence quenching of hydroxyl group when PEG is incorporated.
球形颗粒荧光粉的光散射面积最小,堆积密度大,有助于提高发光材料的发光强度和使用寿命。
Spherical particles have minimum scattering area, high packing density; which is beneficial to the luminescent intensity and lifetime of the devices.
同时,利用正交实验探讨了合成工艺条件对荧光粉相对发光强度的影响。
The effect of the synthetic conditions on the relative luminescence intensity was discussed with orthogonal test.
介绍了多孔硅经表面钝化后,其发光强度和谱线峰位的稳定性,以及多孔硅激光染料镶嵌膜的荧光光谱等方面的最新成果。
The latest results of the photoluminescence spectra of porous silicon by surface passivation and laser dye impregnated in porous silicon were presented in this paper.
荧光强度与激发光强度的三次方关系表明,有效的荧光产生起源于三阶非线性光学效应的增强。
The intensity dependence of integrated luminescence on pump power shows that this is a third-order nonlinear optical effect.
荧光素—荧光素酶反应体系能发出荧光,毒性物质的存在则会抑制荧光的发光强度。
The luciferin-luciferase's reaction system may emit fluorescence, while the toxic substances will suppress the luminous intensity.
荧光素—荧光素酶反应体系能发出荧光,毒性物质的存在则会抑制荧光的发光强度。
The luciferin-luciferase's reaction system may emit fluorescence, while the toxic substances will suppress the luminous intensity.
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