2015
DOI: 10.7150/thno.9860
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Fluorescent Sensing of Fluoride in Cellular System

Abstract: Fluoride ions have the important roles in a lot of physiological activities related with biological and medical system, such as water fluoridation, caries treatment, and bone disease treatment. Great efforts have been made to develop new methods and strategies for F- detection in the past decades. Traditional methods for the detection of F- including ion chromatography, ion-selective electrodes, and spectroscopic techniques have the limitations in the biomedicine research. The fluorescent probes for F- are ver… Show more

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Cited by 90 publications
(55 citation statements)
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References 119 publications
(124 reference statements)
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“…Fluorescein and rhodamine dyes are the ones most commonly used to develop biological sensing probes . These probes possess excellent optical properties such as a long excitation wavelength ( λ ≈500 nm) and high fluorescence quantum yields and extinction coefficients, and thus, they are widely used in biochemistry, cell imaging, cell biology, clinical diagnosis, and drug delivery . Green fluorescent dyes show an emission wavelength in the λ =500–550 nm range.…”
Section: Green Fluorescent Dyesmentioning
confidence: 99%
“…Fluorescein and rhodamine dyes are the ones most commonly used to develop biological sensing probes . These probes possess excellent optical properties such as a long excitation wavelength ( λ ≈500 nm) and high fluorescence quantum yields and extinction coefficients, and thus, they are widely used in biochemistry, cell imaging, cell biology, clinical diagnosis, and drug delivery . Green fluorescent dyes show an emission wavelength in the λ =500–550 nm range.…”
Section: Green Fluorescent Dyesmentioning
confidence: 99%
“…Recently, a new class of carbon nanomaterials, including nanodiamonds [3] and fluorescent carbon nanoparticles (CNPs) [4], have been widely investigated due to their high hydrophilicity, excellent biocompatibility, good cell permeability, high photostability and flexibility in surface modification as a result of the presence of different functional groups (carboxyl, hydroxyl and amino groups), allowing the covalent conjugation of chemotherapeutic and targeting agents [5]. Particularly, fluorescent CNPs have wide applications in areas such as bioimaging, drug delivery [6][7][8][9][10], sensors [11][12][13][14],…”
Section: Accepted Manuscript Introductionmentioning
confidence: 99%
“…As illustrated in Scheme 2, in the absence of Zn 2+ ions, TYMN fluorophore undergoes intramolecular charge transfer (ICT) from the donor to the acceptor upon photo-excitation, but in the presence of Zn 2+ ions, the increase in the fluorescence intensity of TYMN can be ascribed to leakage of conjugation as a result of formation of coordinate bonds between O atom of hydroxyl group and the azomethine nitrogen atom, resulting in restriction of photo-induced ICT mechanism. 47,48 Such mechanism causing remarkable fluorescence enhancement was previously reported. 49…”
Section: Sensing Mechanism Speculationmentioning
confidence: 58%