Near-Infrared Phosphorus-Substituted Rhodamine with Emission Wavelength above 700 nm for Bioimaging

Xiaoyun Chai; Xiaoyan Cui; Baogang Wang; Fan Yang; Yi Cai; Qiuye Wu; Ting Wang

doi:10.1002/chem.201502921

Near-Infrared Phosphorus-Substituted Rhodamine with Emission Wavelength above 700 nm for Bioimaging

Xiaoyun Chai, Xiaoyan Cui, Baogang Wang, Fan Yang, Yi Cai, Qiuye Wu, Ting Wang

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

143 Scopus citations

Abstract

Phosphorus has been successfully fused into a classic rhodamine framework, in which it replaces the bridging oxygen atom to give a series of phosphorus-substituted rhodamines (PRs). Because of the electron-accepting properties of the phosphorus moiety, which is due to effective σ∗-π∗ interactions and strengthened by the inductivity of phosphine oxide, PR exhibits extraordinary long-wavelength fluorescence emission, elongating to the region above 700 nm, with bathochromic shifts of 140 and 40 nm relative to rhodamine and silicon-substituted rhodamine, respectively. Other advantageous properties of the rhodamine family, including high molar extinction coefficient, considerable quantum efficiency, high water solubility, pH-independent emission, great tolerance to photobleaching, and low cytotoxicity, stay intact in PR. Given these excellent properties, PR is desirable for NIR-fluorescence imaging in vivo.

Original language	English
Pages (from-to)	16754-16758
Number of pages	5
Journal	Chemistry - A European Journal
Volume	21
Issue number	47
DOIs	https://doi.org/10.1002/chem.201502921
State	Published - 1 Nov 2015
Externally published	Yes

Keywords

bioimaging
near-infrared
phosphorus
redshifted emission
rhodamine

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title = "Near-Infrared Phosphorus-Substituted Rhodamine with Emission Wavelength above 700 nm for Bioimaging",

abstract = "Phosphorus has been successfully fused into a classic rhodamine framework, in which it replaces the bridging oxygen atom to give a series of phosphorus-substituted rhodamines (PRs). Because of the electron-accepting properties of the phosphorus moiety, which is due to effective σ∗-π∗ interactions and strengthened by the inductivity of phosphine oxide, PR exhibits extraordinary long-wavelength fluorescence emission, elongating to the region above 700 nm, with bathochromic shifts of 140 and 40 nm relative to rhodamine and silicon-substituted rhodamine, respectively. Other advantageous properties of the rhodamine family, including high molar extinction coefficient, considerable quantum efficiency, high water solubility, pH-independent emission, great tolerance to photobleaching, and low cytotoxicity, stay intact in PR. Given these excellent properties, PR is desirable for NIR-fluorescence imaging in vivo.",

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author = "Xiaoyun Chai and Xiaoyan Cui and Baogang Wang and Fan Yang and Yi Cai and Qiuye Wu and Ting Wang",

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doi = "10.1002/chem.201502921",

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TY - JOUR

T1 - Near-Infrared Phosphorus-Substituted Rhodamine with Emission Wavelength above 700 nm for Bioimaging

AU - Chai, Xiaoyun

AU - Cui, Xiaoyan

AU - Wang, Baogang

AU - Yang, Fan

AU - Cai, Yi

AU - Wu, Qiuye

AU - Wang, Ting

PY - 2015/11/1

Y1 - 2015/11/1

N2 - Phosphorus has been successfully fused into a classic rhodamine framework, in which it replaces the bridging oxygen atom to give a series of phosphorus-substituted rhodamines (PRs). Because of the electron-accepting properties of the phosphorus moiety, which is due to effective σ∗-π∗ interactions and strengthened by the inductivity of phosphine oxide, PR exhibits extraordinary long-wavelength fluorescence emission, elongating to the region above 700 nm, with bathochromic shifts of 140 and 40 nm relative to rhodamine and silicon-substituted rhodamine, respectively. Other advantageous properties of the rhodamine family, including high molar extinction coefficient, considerable quantum efficiency, high water solubility, pH-independent emission, great tolerance to photobleaching, and low cytotoxicity, stay intact in PR. Given these excellent properties, PR is desirable for NIR-fluorescence imaging in vivo.

AB - Phosphorus has been successfully fused into a classic rhodamine framework, in which it replaces the bridging oxygen atom to give a series of phosphorus-substituted rhodamines (PRs). Because of the electron-accepting properties of the phosphorus moiety, which is due to effective σ∗-π∗ interactions and strengthened by the inductivity of phosphine oxide, PR exhibits extraordinary long-wavelength fluorescence emission, elongating to the region above 700 nm, with bathochromic shifts of 140 and 40 nm relative to rhodamine and silicon-substituted rhodamine, respectively. Other advantageous properties of the rhodamine family, including high molar extinction coefficient, considerable quantum efficiency, high water solubility, pH-independent emission, great tolerance to photobleaching, and low cytotoxicity, stay intact in PR. Given these excellent properties, PR is desirable for NIR-fluorescence imaging in vivo.

KW - bioimaging

KW - near-infrared

KW - phosphorus

KW - redshifted emission

KW - rhodamine

UR - https://www.scopus.com/pages/publications/84946426826

U2 - 10.1002/chem.201502921

DO - 10.1002/chem.201502921

M3 - 文章

C2 - 26601641

AN - SCOPUS:84946426826

SN - 0947-6539

VL - 21

SP - 16754

EP - 16758

JO - Chemistry - A European Journal

JF - Chemistry - A European Journal

IS - 47

ER -

Near-Infrared Phosphorus-Substituted Rhodamine with Emission Wavelength above 700 nm for Bioimaging

Abstract

Keywords

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