Time-resolved pH-dependent fluorescence of hydrophilic porphyrins in solution and in cultivated cells

Porphyrin monomers, dimers and aggregates, which can be differentiated on the basis of their fluorescence lifetimes, are shown to possess different degrees of fluorescence polarization. This opens up new possibilities for microscopic imaging of these individual components in photosensitization and t

## Abstract This work presents measurements of time‐resolved fluorescence microscopy of hematoporphyrin‐derivative (HpD) in single cells of mice tissue (both tumor and normal cells), in HeLa cells, and in solution. The measurements were performed using a pulsed‐laser microfluorometer with high spat

## Abstract Two __p__‐phenylenevinylene (PV) trimers, containing 3′‐methylbutyloxyl (in MBOPV3) and 2′‐ethylhexyloxyl (in EHOPV3) side chains, are used as model compounds of PV‐based conjugated polymers (PPV) with the purpose of clarifying the origin of fast (picosecond time) components observed in

## Abstract Fluorescence rise and decay processes were measured and rate parameters were determined for the pyrene‐tri‐__n__‐butylamine and pyrene‐N,N‐diethylaniline exciplex system in various solvents. An additional activation energy over that for the diffusional motion appears necessary for both