Observing photophysical properties of quantum dots in air at the single molecule level: Advantages in microarray applications

Xingbo Shi; Xianxin Meng; Lichun Sun; Jinhua Liu; Jing Zheng; Hongwei Gai; Ronghua Yang; Edward S. Yeung

doi:10.1039/c005258b

Observing photophysical properties of quantum dots in air at the single molecule level: Advantages in microarray applications

Xingbo Shi, Xianxin Meng, Lichun Sun, Jinhua Liu, Jing Zheng, Hongwei Gai, Ronghua Yang, Edward S. Yeung

Research output: Contribution to journal › Article › peer-review

23 Scopus citations

Abstract

Quantum dots (QDs) are promising fluorescent tags for microarrays. Because most microarrays are analyzed under dry conditions, it is necessary to examine the photo properties of QDs in air. We demonstrate that the photophysical characteristics of individual quantum dots are different at the liquid/solid interface compared with QDs at the air/solid interface by observing them through a wide-field fluorescence microscope. QDs in air show higher photo-stability, higher fluorescence signal, slower spectral blue shift rate, less blinking and shorter bulk fluorescence lifetime than those in solution. These beneficial properties indicate QDs are good alternative fluorescent probes for microarrays.

Original language	English
Pages (from-to)	2844-2847
Number of pages	4
Journal	Lab on a Chip
Volume	10
Issue number	21
DOIs	https://doi.org/10.1039/c005258b
State	Published - 7 Nov 2010
Externally published	Yes

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abstract = "Quantum dots (QDs) are promising fluorescent tags for microarrays. Because most microarrays are analyzed under dry conditions, it is necessary to examine the photo properties of QDs in air. We demonstrate that the photophysical characteristics of individual quantum dots are different at the liquid/solid interface compared with QDs at the air/solid interface by observing them through a wide-field fluorescence microscope. QDs in air show higher photo-stability, higher fluorescence signal, slower spectral blue shift rate, less blinking and shorter bulk fluorescence lifetime than those in solution. These beneficial properties indicate QDs are good alternative fluorescent probes for microarrays.",

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T2 - Advantages in microarray applications

AU - Shi, Xingbo

AU - Meng, Xianxin

AU - Sun, Lichun

AU - Liu, Jinhua

AU - Zheng, Jing

AU - Gai, Hongwei

AU - Yang, Ronghua

AU - Yeung, Edward S.

PY - 2010/11/7

Y1 - 2010/11/7

N2 - Quantum dots (QDs) are promising fluorescent tags for microarrays. Because most microarrays are analyzed under dry conditions, it is necessary to examine the photo properties of QDs in air. We demonstrate that the photophysical characteristics of individual quantum dots are different at the liquid/solid interface compared with QDs at the air/solid interface by observing them through a wide-field fluorescence microscope. QDs in air show higher photo-stability, higher fluorescence signal, slower spectral blue shift rate, less blinking and shorter bulk fluorescence lifetime than those in solution. These beneficial properties indicate QDs are good alternative fluorescent probes for microarrays.

AB - Quantum dots (QDs) are promising fluorescent tags for microarrays. Because most microarrays are analyzed under dry conditions, it is necessary to examine the photo properties of QDs in air. We demonstrate that the photophysical characteristics of individual quantum dots are different at the liquid/solid interface compared with QDs at the air/solid interface by observing them through a wide-field fluorescence microscope. QDs in air show higher photo-stability, higher fluorescence signal, slower spectral blue shift rate, less blinking and shorter bulk fluorescence lifetime than those in solution. These beneficial properties indicate QDs are good alternative fluorescent probes for microarrays.

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M3 - 文章

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JO - Lab on a Chip

JF - Lab on a Chip

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ER -

Observing photophysical properties of quantum dots in air at the single molecule level: Advantages in microarray applications

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