Preparation of Silicon-Carbon-Based Dots@Dopamine and Its Application in Intracellular Ag+ Detection and Cell Imaging

Yuliang Jiang; Zhaoyin Wang; Zhihui Dai

doi:10.1021/acsami.5b08089

Preparation of Silicon-Carbon-Based Dots@Dopamine and Its Application in Intracellular Ag⁺ Detection and Cell Imaging

Yuliang Jiang, Zhaoyin Wang, Zhihui Dai

Nanjing Normal University

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

103 Scopus citations

Abstract

A novel nanocomposite, silicon-carbon-based dots@dopamine (Si-CDs@DA) was prepared using (3-aminopropyl) triethoxysilane, glycerol, and dopamine as raw materials via a rapid microwave-assisted irradiation. This type of Si-CDs@DA exhibited ultrabright fluorescence emission (quantum yield of 12.4%) and could response to Ag⁺ selectively and sensitively. Moreover, the obtained Si-CDs@DA can be further applied in sensing intracellular Ag⁺ and cell imaging, because of its photostability, salt stability, and low cytotoxicity. This study provides a simple and efficient approach for preparing novel Ag⁺ fluorescent probes, which could expand the application of carbon nanomaterials in designing related biosensors.

Original language	English
Pages (from-to)	3644-3650
Number of pages	7
Journal	ACS Applied Materials and Interfaces
Volume	8
Issue number	6
DOIs	https://doi.org/10.1021/acsami.5b08089
State	Published - 24 Feb 2016
Externally published	Yes

Keywords

Si-CDs@DA
carbon-based dots
cell imaging
fluorescent probe
intracellular Ag sensing

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10.1021/acsami.5b08089

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title = "Preparation of Silicon-Carbon-Based Dots@Dopamine and Its Application in Intracellular Ag+ Detection and Cell Imaging",

abstract = "A novel nanocomposite, silicon-carbon-based dots@dopamine (Si-CDs@DA) was prepared using (3-aminopropyl) triethoxysilane, glycerol, and dopamine as raw materials via a rapid microwave-assisted irradiation. This type of Si-CDs@DA exhibited ultrabright fluorescence emission (quantum yield of 12.4%) and could response to Ag+ selectively and sensitively. Moreover, the obtained Si-CDs@DA can be further applied in sensing intracellular Ag+ and cell imaging, because of its photostability, salt stability, and low cytotoxicity. This study provides a simple and efficient approach for preparing novel Ag+ fluorescent probes, which could expand the application of carbon nanomaterials in designing related biosensors.",

keywords = "Si-CDs@DA, carbon-based dots, cell imaging, fluorescent probe, intracellular Ag sensing",

author = "Yuliang Jiang and Zhaoyin Wang and Zhihui Dai",

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T1 - Preparation of Silicon-Carbon-Based Dots@Dopamine and Its Application in Intracellular Ag+ Detection and Cell Imaging

AU - Jiang, Yuliang

AU - Wang, Zhaoyin

AU - Dai, Zhihui

PY - 2016/2/24

Y1 - 2016/2/24

N2 - A novel nanocomposite, silicon-carbon-based dots@dopamine (Si-CDs@DA) was prepared using (3-aminopropyl) triethoxysilane, glycerol, and dopamine as raw materials via a rapid microwave-assisted irradiation. This type of Si-CDs@DA exhibited ultrabright fluorescence emission (quantum yield of 12.4%) and could response to Ag+ selectively and sensitively. Moreover, the obtained Si-CDs@DA can be further applied in sensing intracellular Ag+ and cell imaging, because of its photostability, salt stability, and low cytotoxicity. This study provides a simple and efficient approach for preparing novel Ag+ fluorescent probes, which could expand the application of carbon nanomaterials in designing related biosensors.

AB - A novel nanocomposite, silicon-carbon-based dots@dopamine (Si-CDs@DA) was prepared using (3-aminopropyl) triethoxysilane, glycerol, and dopamine as raw materials via a rapid microwave-assisted irradiation. This type of Si-CDs@DA exhibited ultrabright fluorescence emission (quantum yield of 12.4%) and could response to Ag+ selectively and sensitively. Moreover, the obtained Si-CDs@DA can be further applied in sensing intracellular Ag+ and cell imaging, because of its photostability, salt stability, and low cytotoxicity. This study provides a simple and efficient approach for preparing novel Ag+ fluorescent probes, which could expand the application of carbon nanomaterials in designing related biosensors.

KW - Si-CDs@DA

KW - carbon-based dots

KW - cell imaging

KW - fluorescent probe

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Preparation of Silicon-Carbon-Based Dots@Dopamine and Its Application in Intracellular Ag⁺ Detection and Cell Imaging

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