主族元素取代的罗丹明近红外荧光染料探针

Fei Xie; Baogang Wang; Xiaoyan Cui; Xiaoyun Chai; Shichong Yu; Dazhi Zhang; Ting Wang

doi:10.1360/N032017-00041

主族元素取代的罗丹明近红外荧光染料探针

Translated title of the contribution: The design, synthesis and bioimaging of main group elements substituted near-infrared fluorescent rhodamine dyes and probes

Fei Xie
, Baogang Wang
, Xiaoyan Cui
, Xiaoyun Chai
, Shichong Yu
, Dazhi Zhang^*
, Ting Wang^*

^*Corresponding author for this work

School of Chemistry and Molecular Engineering

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

Abstract

Near Infrared (NIR) fluorescence imaging is significant in bioimaging with many favorable characteristics, including high signal/noise ratio, deep penetration and low photo-toxicity. The main group elements substituted rhodamine dyes have attracted large attention not only due to the NIR characteristics, but also many inherited outstanding merits of rhodamine dyes. Among the developed rhodamine dyes, the dyes whose bridging oxygen are substituted by silicon have attracted most interests and been widely used in the fluorescence bioimaging. The development of NIR main group elements substituted rhodamine dyes has enriched the species and quantity of the fluorescent probes and enlarged their application. Herein we reviewed the design, development and application of main group substituted rhodamine in recent years.

Translated title of the contribution	The design, synthesis and bioimaging of main group elements substituted near-infrared fluorescent rhodamine dyes and probes
Original language	Chinese (Traditional)
Pages (from-to)	906-925
Number of pages	20
Journal	Scientia Sinica Chimica
Volume	47
Issue number	8
DOIs	https://doi.org/10.1360/N032017-00041
State	Published - 2017

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title = "主族元素取代的罗丹明近红外荧光染料探针",

abstract = "Near Infrared (NIR) fluorescence imaging is significant in bioimaging with many favorable characteristics, including high signal/noise ratio, deep penetration and low photo-toxicity. The main group elements substituted rhodamine dyes have attracted large attention not only due to the NIR characteristics, but also many inherited outstanding merits of rhodamine dyes. Among the developed rhodamine dyes, the dyes whose bridging oxygen are substituted by silicon have attracted most interests and been widely used in the fluorescence bioimaging. The development of NIR main group elements substituted rhodamine dyes has enriched the species and quantity of the fluorescent probes and enlarged their application. Herein we reviewed the design, development and application of main group substituted rhodamine in recent years.",

keywords = "Bioimaging, Dyes and probes, Near-infrared, Rhodamine, Silicon",

author = "Fei Xie and Baogang Wang and Xiaoyan Cui and Xiaoyun Chai and Shichong Yu and Dazhi Zhang and Ting Wang",

year = "2017",

doi = "10.1360/N032017-00041",

language = "繁体中文",

volume = "47",

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T1 - 主族元素取代的罗丹明近红外荧光染料探针

AU - Xie, Fei

AU - Wang, Baogang

AU - Cui, Xiaoyan

AU - Chai, Xiaoyun

AU - Yu, Shichong

AU - Zhang, Dazhi

AU - Wang, Ting

PY - 2017

Y1 - 2017

N2 - Near Infrared (NIR) fluorescence imaging is significant in bioimaging with many favorable characteristics, including high signal/noise ratio, deep penetration and low photo-toxicity. The main group elements substituted rhodamine dyes have attracted large attention not only due to the NIR characteristics, but also many inherited outstanding merits of rhodamine dyes. Among the developed rhodamine dyes, the dyes whose bridging oxygen are substituted by silicon have attracted most interests and been widely used in the fluorescence bioimaging. The development of NIR main group elements substituted rhodamine dyes has enriched the species and quantity of the fluorescent probes and enlarged their application. Herein we reviewed the design, development and application of main group substituted rhodamine in recent years.

AB - Near Infrared (NIR) fluorescence imaging is significant in bioimaging with many favorable characteristics, including high signal/noise ratio, deep penetration and low photo-toxicity. The main group elements substituted rhodamine dyes have attracted large attention not only due to the NIR characteristics, but also many inherited outstanding merits of rhodamine dyes. Among the developed rhodamine dyes, the dyes whose bridging oxygen are substituted by silicon have attracted most interests and been widely used in the fluorescence bioimaging. The development of NIR main group elements substituted rhodamine dyes has enriched the species and quantity of the fluorescent probes and enlarged their application. Herein we reviewed the design, development and application of main group substituted rhodamine in recent years.

KW - Bioimaging

KW - Dyes and probes

KW - Near-infrared

KW - Rhodamine

KW - Silicon

UR - https://www.scopus.com/pages/publications/85109075443

U2 - 10.1360/N032017-00041

DO - 10.1360/N032017-00041

M3 - 文章

AN - SCOPUS:85109075443

SN - 1674-7224

VL - 47

SP - 906

EP - 925

JO - Scientia Sinica Chimica

JF - Scientia Sinica Chimica

IS - 8

ER -

主族元素取代的罗丹明近红外荧光染料探针

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