A novel Lu3+ fluorescent nano-chemosensor using new functionalized mesoporous structures

A novel Lu3+ sensitive fluorescent chemosensor is constructed through the preparation of 8-hydroxyquinoline functionalized mesoporous silica with ordered hexagonal array structure (LUS-SPS-Q). Fluorescence measurements revealed that the emission intensity of the Lu3+-bound mesoporous material increa...

Full description

Saved in:
Bibliographic Details
Published in:Analytica chimica acta 2013-04, Vol.771, p.95-101
Main Authors: Hosseini, Morteza, Ganjali, Mohammad Reza, Rafiei-Sarmazdeh, Zahra, Faridbod, Farnoush, Goldooz, Hassan, Badiei, Alireza, Nourozi, Parviz, Mohammadi Ziarani, Ghodsi
Format: Article
Language:English
Subjects:
Binding
Covalence
Emission
Enhancing
Fluorescent
Lutetium
Materials selection
Mathematical analysis
Mesoporous
Nano-chemosensor
Nanocomposites
Nanomaterials
Nanostructure
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:A novel Lu3+ sensitive fluorescent chemosensor is constructed through the preparation of 8-hydroxyquinoline functionalized mesoporous silica with ordered hexagonal array structure (LUS-SPS-Q). Fluorescence measurements revealed that the emission intensity of the Lu3+-bound mesoporous material increases significantly upon addition of various concentrations of Lu3+, while the mono-, di-, trivalent cations result in either unchanged or weakened intensities. [Display omitted] ► 8-Hydroxyquinoline functionalized mesoporous silica is introduced as a selective fluorescent probe for lutetium ions. ► Fluorescent intensity of the chemical probe enhances upon binding to lutetium ions. ► Fluorescence measurements were done in a suspension of mesoporous silica in aqueous solution. A new Lu3+ sensitive fluorescent chemosensor is designed using 8-hydroxyquinoline functionalized mesoporous silica with highly ordered structure (LUS-SPS-Q). The characterization of LUS-SPS-Q showed that the organized structure has been preserved after the post grafting procedure. The synthesized material showed a selective interaction with Lu3+ ion, most probably due to the presence of the fluorophore moiety at its surface. The emission intensity of the Lu3+-bound mesoporous material increases with an increase in concentrations of Lu3+ ion. Addition of other mono-, di-, trivalent ions resulted in insignificant change in the fluorescent intensity. The enhancement of fluorescence is attributed to the strong covalent binding of Lu3+ ion. The linear response range of Lu3+ chemo-sensor was from 1.6×10−7 to 1.0×10−5molL−1. The Limit of detection obtained was 8.2×10−8molL−1 and the pH range which the proposed chemo-sensor can be applied was 3.3–8.3.
ISSN:0003-2670
1873-4324
DOI:10.1016/j.aca.2013.01.064