结论应用量子点纳米荧光探针直观发现中药有效成分与细胞之间的作用是可行的。
CONCLUSION Using the QDs nanoprobes to find the interaction between the active components of Chinese traditional medicine and cells is possible.
纳米探针通过聚焦强X射线激发样品,然后收集发射出的特征荧光。
The nanoprobe excites the sample with a strongly focused X-ray beam and collects the characteristic fluorescence signal that is re-emitted.
前言:目的:量子点(半导体纳米微晶体)作为一种新型荧光探针应用到生物光子学中已经引起了国内外科学工作者的极大关注。
Purpose: Quantum Dots (semiconductor nanocrystal) which are used in biophotonics as a novel fluorescent probe have attracted a lot of scientific research staffs attention all around the world.
量子点,又叫做无机纳米晶,由于其作为荧光探针在生物领域中的巨大应用前景,已引起生物学家们的广泛关注。
Quantum dots (QDs), also known as semiconductor nanocrystals, have drawn significant attention for their potential as fluorescent probes in biological field.
优化了基于纳米金标记探针的目视化检测方法,将其用于检测从阳性血清中提取的乙肝病毒(HBV)基因,并与基于荧光素异硫氰酸酯(FITC)标记探针的荧光检测方法进行了比较。
Visual method based on nanogold-supported probes was optimized and used to detect HBV extracted from positive serum samples, which was compared with fluorescence method based on FITC-labeled probes.
优化了基于纳米金标记探针的目视化检测方法,将其用于检测从阳性血清中提取的乙肝病毒(HBV)基因,并与基于荧光素异硫氰酸酯(FITC)标记探针的荧光检测方法进行了比较。
Visual method based on nanogold-supported probes was optimized and used to detect HBV extracted from positive serum samples, which was compared with fluorescence method based on FITC-labeled probes.
应用推荐