As a new type of fluorescence materials, semiconductor quantum dots (QDs) have many advantages over the traditional materials.
半导体量子点作为一种最新型的荧光材料,与传统的荧光材料相比具有多种优势。
Most attention has been paid to quantum dots (QDs).
其中研究最多的是半导体量子点。
The second part involves voltage controlled slow light effects in asymmetry double quantum dots (QDs).
第二部分是在非对称的双量子点中电压调控的慢光效应。
It has conductive effects to find the cancerous parts with quantum dots (QDs) target orientation.
利用量子点目标定位癌细胞,对于寻找癌变部位具有指导的作用。
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。
Quantum dots (QDs) have great electrical, optical properties and wide potential applications on nano-electronics, opto-electronics and quantum calculation in future.
量子点具有优异的电学和光学性能,在未来的纳米电子学、光电子学和量子计算等领域具有广泛的应用前景。
Quantum dots (QDs), with zero-dimensional electronic properties, have stimulated great interest due to their important roles in fundamental physical research and for developing novel devices.
由于半导体量子点具有零维电子特性,它不仅成为基本物理研究的重要对象,也成为研制新一代量子器件的基础。
Objective:To observe the effect of fixative, mounting medium, temperature and sterilized method to three waves quantum dots(QDs)served as a mark on the peritoneal macrophages and normal skin of mice.
结论:不同波长量子点标记小鼠腹腔巨噬细胞和皮肤组织的效能受固定剂、封片剂、温度和除灭菌方式的影响。
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。
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。
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