delayed fluorescence meaning in Chinese
迟延荧光
迟滞荧光
缓发荧光
延迟荧光
Examples
- At the end of the paper , we have prospected the biological and medical application of delayed fluorescence . finally , a full summary of the thesis is given
第七章对延迟荧光的应用研究作了简要展望,认为光诱导延迟荧光可以在医学、生物科学等领域得到广泛的应用。 - Delayed fluorescence associated with plant metabolism and photosynthesis . the characteristics and its applications in the environmental inspection and agriculture are presented in the thesis
本论文研究了与植物代谢及光合紧密相关的光诱导延迟荧光特征,以及延迟荧光在环境检测和农业中的应用。 - In the chapter three , the mechanism for delayed fluorescence origin is theoretically stimulated . the decay kinetic of df , depends on the backward transport electron and oxidized state p680 + , can be well fitted by poly - exponent
第三章首先理论模拟了延迟荧光产生的分子机理,并且推导出延迟荧光的衰减动力学符合多指数形式,然后从实验上进行了验证。 - Firstly , the primary common sense on delayed fluorescence and research progress were introduced in the chapter one , and then the basic concepts and principles of chemiluminescence and bioluminescence were represented in the chapter two
第一章绪论中介绍了延迟荧光的基本知识和研究进展。第二章介绍了化学发光和生物发光的基本概念及特点,重点介绍了延迟荧光概念和延迟荧光理论。 - Experimental results of the delayed fluorescence spectrum at different chloroplast concentration showed that the apexes at 685nm and 730nm ascend with chloroplast concentration increased while the concentration is relative low ; the peak value at 685 nm reaches a maximum when the concentration is 7 . 8 ug / ml , however , the apex at 730nm is still increasing . the peak value at 730nm finally reaches a maximum at chloroplast concentration 31 . 2 u , g / ml while the apex at 685nm has apparently decreased
不同浓度下叶绿体延迟荧光光谱实验结果表明:初始随浓度的增加,延迟荧光光谱中685nm和730nm成份强度均增强;当浓度增加到7 . 8 g ml时, 685nm成份强度达最大, 730nm成份强度继续上升;当浓度增加到31 . 2 g ml时,延迟荧光光谱中730nm成份强度达最大,而685nm成份已明显下降。