Switching to a ‘turn-on’ fluorescent probe for rapid detection of hydrazine in human breast cancer cells using a test-strip

Abstract: A fluorescent probe TPSBT was developed to monitor hydrazine detection with a “turn on” response converting from a “non-responsive” probe by a simple structural modification. The probe shows very weak...

“…[31][32][33][34][35][36][37][38] In contrast, a uorescent probe has become an ideal detection method owing to its advantages of convenient operation, high specicity, good sensitivity and real-time monitoring. [39][40][41][42][43] Although some uorescent probes with great advantages of sensitivity and selectivity have been reported, more efficient, easily synthesized and low-cost probes still need to be developed to achieve highly efficient detection of N 2 H 4 in complex environments and biological samples.…”

A resorufin-based fluorescent probe for hydrazine detection and its application in environmental analysis and bioimaging

“…[31][32][33][34][35][36][37][38] In contrast, a uorescent probe has become an ideal detection method owing to its advantages of convenient operation, high specicity, good sensitivity and real-time monitoring. [39][40][41][42][43] Although some uorescent probes with great advantages of sensitivity and selectivity have been reported, more efficient, easily synthesized and low-cost probes still need to be developed to achieve highly efficient detection of N 2 H 4 in complex environments and biological samples.…”

A resorufin-based fluorescent probe for hydrazine detection and its application in environmental analysis and bioimaging

A dual-responsive fluorescent turn-on sensor for sensitively detecting and bioimaging of hydrazine and hypochlorite in biofluids, live-cells, and plants

A versatile fluorescent probe for the ratiometric detection of hydrazine (N2H4) in water, soil, plant, and food samples