Add to ORKGWe have described a turn on fluorescent probe BOD-NHOH based on hydroxylamine oxidation for detecting intracellular ferric ions. The probe comprises a signal transducer of BODIPY dye and a Fe3+-response modulator of hydroxylamine. It is readily employed for assessing intracellular ferric ion levels, and confocal imaging is achieved successfully.We have described a turn on fluorescent probe BOD-NHOH based on hydroxylamine oxidation for detecting intracellular ferric ions. The probe comprises a signal transducer of BODIPY dye and a Fe3+-response modulator of hydroxylamine. It is readily employed for assessing intracellular ferric ion levels, and confocal imaging is achieved successfully
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...
Although ferric ion (Fe³⁺) performs critical roles in diverse biochemical processes in living system...
We describe the synthesis, properties, and application of two reversible fluorescent probes, mCy-Tem...
A turn-on fluorescent probe for the detection of Fe2+ is facilely synthesized via a nucleophile subs...
A water-soluble "turn-on" fluorescent probe (RD1) for Fe 3+ based on rhodamine B was designed and sy...
A rhodamine–phenanthroline dyad based fluorescent probe 4 has been designed and synthesized which se...
Hydrogen peroxide (H2O2) is an important reactive oxygen species (ROS). Maintaining the H2O2 concent...
The synthesis, characteristics, and biological applications of a series of new rhodamine nitroxide f...
Fluorescent sensors has received considerable interest in recent years because of its ability to pro...
An electronically active and spectral sensitive fluorescent "turn-on" chemosensor (BTP-1) based on t...
A novel boron-dipyrromethene (BODIPY) based fluorescence turn-on sensor for detecting Fe3+ in aqueou...
We designed and synthesized a turn-on fluorescent probe which consists of meso-(4-pyridinyl)substitu...
A novel boron-dipyrromethene (BODIPY) based fluorescence turn-on sensor for detecting Fe3+ in aqueou...
WOS:000777160700001A convenient tool for detecting iron ions in subcellular structures is desired fo...
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...
Although ferric ion (Fe³⁺) performs critical roles in diverse biochemical processes in living system...
We describe the synthesis, properties, and application of two reversible fluorescent probes, mCy-Tem...
A turn-on fluorescent probe for the detection of Fe2+ is facilely synthesized via a nucleophile subs...
A water-soluble "turn-on" fluorescent probe (RD1) for Fe 3+ based on rhodamine B was designed and sy...
A rhodamine–phenanthroline dyad based fluorescent probe 4 has been designed and synthesized which se...
Hydrogen peroxide (H2O2) is an important reactive oxygen species (ROS). Maintaining the H2O2 concent...
The synthesis, characteristics, and biological applications of a series of new rhodamine nitroxide f...
Fluorescent sensors has received considerable interest in recent years because of its ability to pro...
An electronically active and spectral sensitive fluorescent "turn-on" chemosensor (BTP-1) based on t...
A novel boron-dipyrromethene (BODIPY) based fluorescence turn-on sensor for detecting Fe3+ in aqueou...
We designed and synthesized a turn-on fluorescent probe which consists of meso-(4-pyridinyl)substitu...
A novel boron-dipyrromethene (BODIPY) based fluorescence turn-on sensor for detecting Fe3+ in aqueou...
WOS:000777160700001A convenient tool for detecting iron ions in subcellular structures is desired fo...
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...
Although ferric ion (Fe³⁺) performs critical roles in diverse biochemical processes in living system...