A simple turn-off fluorescent method was utilized to quantitatively detect Cu(II) which can selectively quench fluorescent dye molecules. Addition of DNA G-quadruplex into the solution significantly magnifies the discrimination, lowers the limit of detection and broadens the linear response range
AbstractDue to the inherent higher sensitivity of fluorescence detection than colorimetric detection...
A novel Cu(2+)-specific "off-on" fluorescent chemosensor of naphthalimide modified rhodami...
Ion sensors particularly organic fluorescent chemo sensors are very much researched in recent times ...
A facile and label-free detection method based on the formation of the G-quadruplex structure of Thi...
Many fluorescent molecular sensors for metal ions are efficiently quenched by paramagnetic Cu2+ ions...
An effective G-quadruplex-based probe has been constructed for rapid and sensitive detection of Cu2+...
Cu2+ is one of the most essential metal ions in biological systems, since it plays an important role...
Label-free metal ion detection methods were developed. To achieve these, a reconstructed Cu(2+)-spec...
Guanine-rich sequences of DNA are able to create tetrastranded structures known as G-quadruplexes; t...
In recent years, bioanalytical technology based on G-quadruplex has been paid significant attention ...
A known Hg2+ selective rhodamine B derivatised probe 1 was reinvestigated as a colorimetric and fluo...
Based on a through bond energy transfer (TBET) between Rhodamine and a naphthalimide fluorophore, a ...
Cu(II) ion has two sides. In one side, Cu(II) ion is an important cofactor in nearly 20 metalloenzym...
<div><p>Label-free metal ion detection methods were developed. To achieve these, a reconstructed Cu<...
A new highly selective and sensitive fluorescent probe for Cu2+, N-n-butyl-4-(1′-cyclooctene-1′,3′,6...
AbstractDue to the inherent higher sensitivity of fluorescence detection than colorimetric detection...
A novel Cu(2+)-specific "off-on" fluorescent chemosensor of naphthalimide modified rhodami...
Ion sensors particularly organic fluorescent chemo sensors are very much researched in recent times ...
A facile and label-free detection method based on the formation of the G-quadruplex structure of Thi...
Many fluorescent molecular sensors for metal ions are efficiently quenched by paramagnetic Cu2+ ions...
An effective G-quadruplex-based probe has been constructed for rapid and sensitive detection of Cu2+...
Cu2+ is one of the most essential metal ions in biological systems, since it plays an important role...
Label-free metal ion detection methods were developed. To achieve these, a reconstructed Cu(2+)-spec...
Guanine-rich sequences of DNA are able to create tetrastranded structures known as G-quadruplexes; t...
In recent years, bioanalytical technology based on G-quadruplex has been paid significant attention ...
A known Hg2+ selective rhodamine B derivatised probe 1 was reinvestigated as a colorimetric and fluo...
Based on a through bond energy transfer (TBET) between Rhodamine and a naphthalimide fluorophore, a ...
Cu(II) ion has two sides. In one side, Cu(II) ion is an important cofactor in nearly 20 metalloenzym...
<div><p>Label-free metal ion detection methods were developed. To achieve these, a reconstructed Cu<...
A new highly selective and sensitive fluorescent probe for Cu2+, N-n-butyl-4-(1′-cyclooctene-1′,3′,6...
AbstractDue to the inherent higher sensitivity of fluorescence detection than colorimetric detection...
A novel Cu(2+)-specific "off-on" fluorescent chemosensor of naphthalimide modified rhodami...
Ion sensors particularly organic fluorescent chemo sensors are very much researched in recent times ...
DOI
Add to ORKG