Picosecond polarized fluorescence studies of anisotropic fluid media. II. Experimental studies of molecular order and motion in jet aligned rhodamine 6G and resorufin solutions

Abstract: Articles you may be interested inTwo-photon-excited fluorescence resonance energy transfer in an aqueous system of CdTe quantum dots and Rhodamine BNew polarized time resolved fluorescence techniques are implemented to determine the full angular motion of a probe molecule in an anisotropic environment. Studies of rhodamine 6G and resorufin molecules aligned in a free ethylene glycol jet show that the presence of net molecular order is accompanied by a distinct anisotropy in alignment relaxation following photo… Show more

“…where <P 2 > and <P 4 > are the more commonly used 2 nd and 4 th rank order parameters used to describe cylindrically symmetric samples 20 these are related to the alignment moments through…”

“…Principally these are the non-parallelism of absorption and emission transition dipole moments 3 , depolarisation due arising from sample concentration and path length effects 19 and depolarisation by the collection optics. The A parameter is determined by the departure of the initial fluorescence anisotropy from its theoretical value in an isotropic sample 4 . For liquid crystalline media the sample is raised to the a few degrees above the nematic isotropic phase transition temperature where departure of R(0,β) from theory is then determined 14 .…”

“…Fluorescence was detected and recorded using time correlated single photon counting (TCSPC) electronics. Particulars of sample preparation, the TCSPC system and associated components have been described in detail elsewhere 4,14 . The initial values of the two fluorescence anisotropies can be used to determine the K=2 and K=4 moments of the ground state distribution.…”

“…Picosecond fluorescence anisotropy studies of molecular probes have been shown to yield useful information on molecular order, orientational dynamics and photophysical processes in both molecular and biomolecular systems 1,11 . Recent work in our group has shown that it is possible to obtain information on the order and full angular motion of a fluorescent probe in an ordered environment using single pulse variable photoselection and picosecond polarised fluorescence [2][3][4] . Here the variation of the excitation (linear) polarisation gives rise to the creation of varying degrees of (non-equilibrium) cylindrically symmetric and asymmetric probe alignment.…”

“…,Q DQ RUGHUHG PHGLXP LW LV FUXFLDO WR DFKLHYH D IXOO UHVROXWLRQ RI WKH RULHQWDWLRQDO ERWK DQG φ) dynamics as the imposition of order gives rise to a marked departure from conventional (isotropic) molecular relaxation [1][2][3][4][5] . Molecular order has to date been probed using a range of optical processes including Raman scattering 6 , laser induced fluorescence [7][8][9] and surface second harmonic generation 10 .…”

Single and three pulse photoselection of dye probes in nematic liquid crystals

“…where <P 2 > and <P 4 > are the more commonly used 2 nd and 4 th rank order parameters used to describe cylindrically symmetric samples 20 these are related to the alignment moments through…”

“…Principally these are the non-parallelism of absorption and emission transition dipole moments 3 , depolarisation due arising from sample concentration and path length effects 19 and depolarisation by the collection optics. The A parameter is determined by the departure of the initial fluorescence anisotropy from its theoretical value in an isotropic sample 4 . For liquid crystalline media the sample is raised to the a few degrees above the nematic isotropic phase transition temperature where departure of R(0,β) from theory is then determined 14 .…”

“…Fluorescence was detected and recorded using time correlated single photon counting (TCSPC) electronics. Particulars of sample preparation, the TCSPC system and associated components have been described in detail elsewhere 4,14 . The initial values of the two fluorescence anisotropies can be used to determine the K=2 and K=4 moments of the ground state distribution.…”

“…Picosecond fluorescence anisotropy studies of molecular probes have been shown to yield useful information on molecular order, orientational dynamics and photophysical processes in both molecular and biomolecular systems 1,11 . Recent work in our group has shown that it is possible to obtain information on the order and full angular motion of a fluorescent probe in an ordered environment using single pulse variable photoselection and picosecond polarised fluorescence [2][3][4] . Here the variation of the excitation (linear) polarisation gives rise to the creation of varying degrees of (non-equilibrium) cylindrically symmetric and asymmetric probe alignment.…”

“…,Q DQ RUGHUHG PHGLXP LW LV FUXFLDO WR DFKLHYH D IXOO UHVROXWLRQ RI WKH RULHQWDWLRQDO ERWK DQG φ) dynamics as the imposition of order gives rise to a marked departure from conventional (isotropic) molecular relaxation [1][2][3][4][5] . Molecular order has to date been probed using a range of optical processes including Raman scattering 6 , laser induced fluorescence [7][8][9] and surface second harmonic generation 10 .…”

Single and three pulse photoselection of dye probes in nematic liquid crystals

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