In Vitro and in Cellulo Sensing of Transition Metals Using Time-Resolved Fluorescence Spectroscopy and Microscopy

Abstract: In this work we demonstrate that time domain techniques can be used successfully to monitor realtively weak modulations of the fluorescence in sensing applications. The metal sensing complex Newport Green DCF™ can detect selected transition metals in vivo as well as in vitro. Incremental addition of Ni and/or Zn (in vitro) lead to a substantial reduction in the yield of the fast component in a bi-exponential fluorescence decay (τ1 = 150–250 ps) from 60% to 30–35%. This is rationalised as an inhibition of intra… Show more

“…Interestingly, 3,3′-dibromoBINOL-based 4a allowed us to record subcellular images by time gated microscopy using a quasi-time delay of 1.4 μs, obtained by scanning between lines at 200 Hz at 1024 × 1024 pixels. As expected, 2 b ,18 the obtained time-gated bioimages (lipid droplets; see ESI†) were clearer-cut than those obtained without applying any time delay (see Fig. 4, and Fig.…”

“…Interestingly, the possibility of promoting delayed emission by using proper BINOL blocks in BINOL- O -BODIPY dyes could serve to rapidly develop advanced bioprobes for useful time-gated microscopy. 18 To investigate this possibility, we selected BINOL- O -BODIPY 4a and 4g , the former involving the most delayed emission upon laser excitation (see Fig. 3), the latter exhibiting the highest fluorescence capability (see Table 1).…”

BINOL blocks as accessible triplet state modulators in BODIPY dyes

“…Interestingly, 3,3′-dibromoBINOL-based 4a allowed us to record subcellular images by time gated microscopy using a quasi-time delay of 1.4 μs, obtained by scanning between lines at 200 Hz at 1024 × 1024 pixels. As expected, 2 b ,18 the obtained time-gated bioimages (lipid droplets; see ESI†) were clearer-cut than those obtained without applying any time delay (see Fig. 4, and Fig.…”

“…Interestingly, the possibility of promoting delayed emission by using proper BINOL blocks in BINOL- O -BODIPY dyes could serve to rapidly develop advanced bioprobes for useful time-gated microscopy. 18 To investigate this possibility, we selected BINOL- O -BODIPY 4a and 4g , the former involving the most delayed emission upon laser excitation (see Fig. 3), the latter exhibiting the highest fluorescence capability (see Table 1).…”

BINOL blocks as accessible triplet state modulators in BODIPY dyes

“…The unique and unusual time domains of the TADF emission remain the centerpiece, driving the development of TADF systems for bioimaging. In this present work, point scanning of the same sample materials (as used in the confocal imaging) was performed using a time-correlated single photon counting (TCSPC) system built onto an epifluorescence microscope ( Pal et al, 2018 ). This was motivated by the superior signal-to-noise ratio and excellent sensitivity of that detection system.…”

“…Time-resolved fluorescence microscopy was performed on the same slides as prepared for confocal fluorescence (as described above). A home-built system was used for point scanning time-resolved fluorescence microscopy based on a Zeiss Axiovert 135M Inverted Epi-fluorescence microscope ( Pal et al, 2018 ). The excitation source was the PicoQuant diode laser LDH-P-C-395, 70 ps pulses FWHM @ 1 MHz.…”

Applying TADF Emitters in Bioimaging and Sensing—A Novel Approach Using Liposomes for Encapsulation and Cellular Uptake

“…Time-resolved fluorescence microscopy was performed as previously outlined in [36] but with some modifications. Briefly, for point scanning time-resolved fluorescence microscopy, a home-built system was used based on a Zeiss Axiovert 135M Inverted Epifluorescence microscope.…”

Modulated Fluorescence in LB Films Based on DADQs—A Potential Sensing Surface?