| 1. | 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。 |
| 2. | 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。 |
| 3. | 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。 |
| 4. | 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。 |
| 5. | 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。 |
| 6. | In the chapter five , the correlation between the intensity of delayed fluorescence and the intactness and function of chloroplast were studied , and the results show that the changes in df intensity of green plants can truly reflect the changes of intactness and functions of chloroplast
第五章系统研究了在酸雨胁迫环境下植物光诱导延迟荧光特性的变化和植物叶片叶绿体数量和功能的改变之间的关系。实验结果表明:绿色植物叶片光诱导延迟荧光强度的变化能很好地反映植物叶片中完整叶绿体的数量以及叶绿体的功能的变化。 |
| 7. | The pollution effects of the plant leaves treated with acid material can be detected quantitatively by means of df . the technique would likely to be applied as a practiced field application with easier operation than chlorophyll fluorescence technique . thus , we conclude that delayed fluorescence is an excellent indicator for evaluating the extent of environment stress on plant
因此,利用植物的光诱导延迟荧光在一定程度上可以检测出雨水和空气中酸性物质对植物叶片的胁迫效应,该方法比常规的理化手段更接近于环境的真实状况,而且比叶绿素荧光技术便于操作。 |
