Add to ORKGFluorescent sensors has received considerable interest in recent years because of its ability to provide visualized monitoring of very low concentrations together with the advantages of spatial and temporal resolution. Over the past two decades, several fluorescent sensors for iron (III) have been reported. However, the currently known fluorescent sensors that are capable of cellular iron imaging are largely limited to “turn-off” type, providing useful information but suffering from poor sensitivity, or interference from other metal ions. We have been developing rhodamine based turn-on fluorescent sensors. Here we report a new iron (III) sensor , Rh-PK, which is stable in low pH\u27s and is capable of detecting basal level Fe+3 in the human...
A novel boron-dipyrromethene (BODIPY) based fluorescence turn-on sensor for detecting Fe3+ in aqueou...
A novel boron-dipyrromethene (BODIPY) based fluorescence turn-on sensor for detecting Fe3+ in aqueou...
Selective and sensitive turn-on fluorescent Fe 3+ sensors based on novel bis(rhodamine) dye molecule...
WOS:000777160700001A convenient tool for detecting iron ions in subcellular structures is desired fo...
A rhodamine–phenanthroline dyad based fluorescent probe 4 has been designed and synthesized which se...
A water-soluble "turn-on" fluorescent probe (RD1) for Fe 3+ based on rhodamine B was designed and sy...
A water-soluble rhodamine-based fluorescent probe (RD2) was designed and synthesized. Compared with ...
A simple fluorescent sensor 1 has been developed for the recognition of Fe(III) in semi-aqueous solu...
A new fluorescent chemosensor for Fe3+ was developed based on a rhodamine platform. L displayed high...
A new fluorescent chemosensor for Fe3+ was developed based on a rhodamine platform. L displayed high...
An electronically active and spectral sensitive fluorescent "turn-on" chemosensor (BTP-1) based on t...
The robust nature of a biocompatible fluorescent probe is demonstrated, by its detection of Fe3+ eve...
A turn-on fluorescent probe for the detection of Fe2+ is facilely synthesized via a nucleophile subs...
Spirocyclic rhodamine derivatives have great potential to be used as fluorescent sensors. Rho- damin...
Iron is one of the most important elements in metabolic processes, being indispensable for all livin...
A novel boron-dipyrromethene (BODIPY) based fluorescence turn-on sensor for detecting Fe3+ in aqueou...
A novel boron-dipyrromethene (BODIPY) based fluorescence turn-on sensor for detecting Fe3+ in aqueou...
Selective and sensitive turn-on fluorescent Fe 3+ sensors based on novel bis(rhodamine) dye molecule...
WOS:000777160700001A convenient tool for detecting iron ions in subcellular structures is desired fo...
A rhodamine–phenanthroline dyad based fluorescent probe 4 has been designed and synthesized which se...
A water-soluble "turn-on" fluorescent probe (RD1) for Fe 3+ based on rhodamine B was designed and sy...
A water-soluble rhodamine-based fluorescent probe (RD2) was designed and synthesized. Compared with ...
A simple fluorescent sensor 1 has been developed for the recognition of Fe(III) in semi-aqueous solu...
A new fluorescent chemosensor for Fe3+ was developed based on a rhodamine platform. L displayed high...
A new fluorescent chemosensor for Fe3+ was developed based on a rhodamine platform. L displayed high...
An electronically active and spectral sensitive fluorescent "turn-on" chemosensor (BTP-1) based on t...
The robust nature of a biocompatible fluorescent probe is demonstrated, by its detection of Fe3+ eve...
A turn-on fluorescent probe for the detection of Fe2+ is facilely synthesized via a nucleophile subs...
Spirocyclic rhodamine derivatives have great potential to be used as fluorescent sensors. Rho- damin...
Iron is one of the most important elements in metabolic processes, being indispensable for all livin...
A novel boron-dipyrromethene (BODIPY) based fluorescence turn-on sensor for detecting Fe3+ in aqueou...
A novel boron-dipyrromethene (BODIPY) based fluorescence turn-on sensor for detecting Fe3+ in aqueou...
Selective and sensitive turn-on fluorescent Fe 3+ sensors based on novel bis(rhodamine) dye molecule...