Fluorescent quantum efficiency has nothing to do with the wavelength of exciting light.
荧光量子效率不随激发光波长而变化。
Additionally, the fluorescent detection dye can also be replaced by other types of dyes or potentially quantum dots that may allow for multiplex detection.
另外,荧光探测染色也同样被其他种类的染色法或者潜在虑及到多元化探测的量子点所取代。
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.
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。
As novel ultrasensitive optical probes, semiconductor quantum dots has been currently used in fluorescent imaging techniques.
半导体量子点作为新型高灵敏的荧光探针被广泛用于生物成像中。
Quantum dots (QDs), also known as semiconductor nanocrystals, have drawn significant attention for their potential as fluorescent probes in biological field.
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。
The luminescence intensity is high and stable. Single quantum dots have longer excited state lifetimes, and they appear 10-20 times brighter than organic fluorescent dyes.
其荧光强度高而稳定,单一量子点表现出的荧光亮度和持续时间是普通有机荧光染料的10 ~20倍。
Additionally the fluorescent detection dye can also be replaced by other types of dyes or potentially quantum dots that may allow for multiplex detection.
另外,荧光探测染色也同样被其他种类的染色法或者潜在虑及到多元化探测的量子点所取代。
Quantum dots, as its excellent fluorescent properties, has been widely used in biological engineering.
量子点由于其优良的荧光性能,目前已广泛应用于生物工程领域。
The size-tunable optical properties and high photoluminescence quantum yields have made QDs a novel and ideal optical material for light-emitting diodes, lasers, and biological fluorescent labels.
它们因具有尺寸可调的光学性质和高的荧光量子产率而成为用于制备发光二极管、激光器和生物荧光标记物的新颖理想的光学材料。
The analysis results show that quantum dots have good water solubility and unique fluorescent stability.
分析结果表明,此量子点具有良好的水溶性和荧光稳定性。
Semiconductor quantum dots (QDs) were provided with more superior performance compared with conventional organic fluorescent dyes.
量子点具有比传统的有机荧光染料更为优越的性能。
The ultraviolet absorption spectra and molar extinction coefficients, fluorescent spectra as well as quantum yields of nucleoside hydrazones in water, ethanol and dioxane were measured.
测定了在水、乙醇、二氧六环中的紫外吸收光谱与克分子消光系数以及萤光光谱和量子产率。
Currently in preparation methods, quantum dots, organic synthesis had many reports, this method can obtain high efficiency fluorescent particles homogeneous quantum dots.
目前在量子点的制备方法中,有机合成法是较成熟的,这种方法可以获得荧光效率高,颗粒均一的量子点。
As a new biological probe, fluorescent semiconductor quantum dots have brought profound changes of research methods and means in the field of biomedicine.
半导体荧光量子点作为一种新型的生物荧光标记物,已经引起了生物医学领域研究方法和手段的深刻变革。
As one of the fluorescent molecules with high quantum yield, rhodamine was often chosen as the mother molecule in the synthesis of metal ion fluorescence chemosensor.
作为一种高量子产率的荧光分子,罗丹明常常被选作荧光母体用于金属离子荧光探针的设计合成。
As one of the fluorescent molecules with high quantum yield, rhodamine was often chosen as the mother molecule in the synthesis of metal ion fluorescence chemosensor.
作为一种高量子产率的荧光分子,罗丹明常常被选作荧光母体用于金属离子荧光探针的设计合成。
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