| 1. | Linear capillary breakup of a liquid jet in the uniform droplet singlet oxygen generator
均匀液滴氧发生器液流破断的线性分析 |
| 2. | Preliminary experimental study on singlet oxygen generation from gas - solid reaction system
气固化学反应体系产生单重态氧的初步实验研究 |
| 3. | The two - phase model ( tpm ) is proved to be available in calculation of jet singlet oxygen generator ( jsog )
摘要将气液两相耦合模型应用于射流式单重态氧发生器,通过数值模拟和实验的比较验证了该模型的可行性。 |
| 4. | Using the trial - solution method under specific boundary conditions , the diffusion equations were derived of chlorine , singlet oxygen , and total oxygen in gas and liquid phases
在实际工作中的射流发生器非常复杂,其扩散方程和边界条件为非线性,非齐次边界条件,非齐次泛定方程组,求解难度较大。 |
| 5. | The analytical solutions for the utilization of chlorine and the yield of singlet oxygen were obtained , which agree with the experimental results and are helpful for further improvement and optimization of the jsog
通过边界条件,采用试探解的方法,解得氯、总氧、单重态氧的气相、液相扩散方程,得到了氯的利用率,及单重态氧产率的解析解,与实验结果基本相符。 |
| 6. | The findings , which appear in the september issue of molecular cell , not only advance knowledge of how cells sense the presence of singlet oxygen , but also how they turn on critical genes to defend themselves from its effects
该发现刊登在分子细胞杂志的9月刊号上,它不仅增进了我们对细胞如何感受单态氧这种机制的了解,而且还揭示了细胞如何开启关键基因的表达来防御单态氧带来的损伤。 |
| 7. | Now , in a study that took more than five years to complete , rockefeller university researchers , in collaboration with a team of bacteriologists at the university of wisconsin , madison , have become the first to solve the structure of a protein complex that protects these cells from singlet oxygen
现在,洛克菲勒大学的研究人员与威斯康星大学的细菌学家一同协作,历经5年多时间的研究,首次获得了一种能够保护细胞免受单态氧损伤的蛋白复合体的晶体结构。 |
| 8. | Output of high purity violet blue light matches the peaks optical absorption of acne aminolevulinic acid , metabolites inside the porphyrin , propionibacterium acnes metabolites inside the porphyrin stimulated by the withdrawal - induced chemical processes produce large singlet oxygen activity and generate a high oxidative environment to propionibacterium acnes , which accordingly leads to the death of bacteria on the skin acne cleared
输出高纯度的紫蓝光,与痤疮丙酸杆菌代谢物内卟啉的光吸收峰值匹配,痤疮丙酸杆菌的代谢物内卟啉受到激发后的化学退激过程产生大量单线态活性氧,可对痤疮丙酸杆菌产生一种高氧化环境,从而导致细菌死亡进而将皮肤上的痤疮清除。 |
