Falk Renth scite author profile

The reversible Z-E photoswitching properties of the (Z) and (E) isomers of the severely constrained bridged azobenzene derivative 5,6-dihydrodibenzo[c,g][1,2]diazocine (1) were investigated quantitatively by UV/vis absorption spectroscopy in solution in n-hexane. In contrast to normal azobenzene (AB), 1 has well separated S(1)(n pi*) absorption bands, peaking at lambda(Z) = 404 nm and lambda(E) = 490 nm. Using light at lambda = 385 nm, it was found that 1Z can be switched to 1E with very high efficiency, Gamma = 92 +/- 3%. Conversely, 1E can be switched back to 1Z using light at lambda = 520 nm with approximately 100% yield. The measured quantum yields are Phi(Z-->E) = 72 +/- 4% and Phi(E-->Z) = 50 +/- 10%. The thermal lifetime of the (E) isomer is 4.5 +/- 0.1 h at 28.5 degrees C. The observed photochromic and photoswitching properties of 1 are much more favorable than those for normal AB, making our title compound a promising candidate for interesting applications as a molecular photoswitch especially at low temperatures. The severe constraints by the ethylenic bridge apparently do not hinder but favor the Z-E photoisomerization reactions.

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Pathway of the Shear-Induced Transition between Planar Lamellae and Multilamellar Vesicles as Studied by Time-Resolved Scattering Techniques

Nettesheim

et al. 2003

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We report on the shear-induced transition from an oriented lamellar phase (Lα phase) to multilamellar vesicles (MLV) in two nonionic surfactant systems, namely, a 40 wt % sample of triethylene glycol monodecyl ether (C10E3) and a 40 wt % sample of tetraethylene glycol monododecyl ether (C12E4) in D2O. This transition was studied by time-resolved small-angle neutron and light scattering under shear. Within a range of shear rates from 2 to 100 s-1 at 25 °C the transition from the Lα phase to MLVs in the C10E3 system apparently is controlled by strain. This transition involves an intermediate structure with cylindrical scattering symmetry. This can be interpreted as multilamellar cylinders (MLCs) or as a coherent stripe buckling with the wave vector of the undulation in a neutral direction. The intermediate structures found along the transition path are stable for long times, when shear is turned off. This allows for studies on trapped intermediate structures and experiments where different positions within the gap of a couette shear cell were examined in so-called gap-scan experiments. These experiments revealed that the transition from planar lamellae to MLVs is homogeneous throughout the gap. A temperature increase to 32 °C changes neither the pathway nor the strain control in comparison with experiments run at 25 °C. Upon a further increase in temperature to 38 °C, the transition leads to a mixture of MLC and planar lamellae or a weakly buckled state. With C12E4 as surfactant, and therefore with changed bilayer properties, a strain control is still observed, but less strain is needed for the transition compared to that of the C10E3 system. A comparison of the transition for the two systems, their transient as well as their steady-state viscosities, indicates that the transition is controlled by the stress.

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Photofragment velocity map imaging of H atom elimination in the first excited state of pyrrole

Wei

Kuczmann

Riedel

et al. 2002

Phys. Chem. Chem. Phys.

130

155

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Photofragment velocity map imaging was used to study the H atom elimination mechanism in the first excited state of pyrrole at l ¼ 243.1 nm. Two major channels were observed. The first one (76%) produces very fast H atoms and appears to be due to a rapid direct N-H bond breaking in the excited electronic state. The respective H atom kinetic energy distribution has a strong narrow peak at high energies, showing that %72% of the available energy is transferred into relative fragment translation. The observed angular recoil distribution which is described by an anisotropy parameter of b ¼ À0.37 AE 0.05 indicates that the excited optical transition is preferentially perpendicular with respect to the N-H dissociation coordinate. From the maximal kinetic energy release, the value of the N-H bond dissociation energy was found to be D 0 (N-H) ¼ (32 400 AE 400) cm À1 . The other channel (24%) leads to much slower H atoms with a very broad kinetic energy distribution, consistent with subsequent unimolecular decay reactions of the molecules in the ground electronic state after internal conversion. This conclusion was supported by similar experiments for N-methylpyrrole which showed only H atoms from the second channel and no fast component. The results corroborate the conclusion that the lowest electronic state of pyrrole has ps* anti-bonding character and is repulsive with respect to the stretching of the N-H bond.

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Femtosecond fluorescence up-conversion spectroscopy of adenine and adenosine: experimental evidence for the πσ* state?

et al. 2005

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Falk Renth

Highly Efficient ReversibleZ−EPhotoisomerization of a Bridged Azobenzene with Visible Light through Resolved S₁(nπ*) Absorption Bands

Pathway of the Shear-Induced Transition between Planar Lamellae and Multilamellar Vesicles as Studied by Time-Resolved Scattering Techniques

Photofragment velocity map imaging of H atom elimination in the first excited state of pyrrole

Femtosecond fluorescence up-conversion spectroscopy of adenine and adenosine: experimental evidence for the πσ* state?

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Falk Renth

Highly Efficient ReversibleZ−EPhotoisomerization of a Bridged Azobenzene with Visible Light through Resolved S1(nπ*) Absorption Bands

Pathway of the Shear-Induced Transition between Planar Lamellae and Multilamellar Vesicles as Studied by Time-Resolved Scattering Techniques

Photofragment velocity map imaging of H atom elimination in the first excited state of pyrrole

Femtosecond fluorescence up-conversion spectroscopy of adenine and adenosine: experimental evidence for the πσ* state?

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Product

Resources

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Highly Efficient ReversibleZ−EPhotoisomerization of a Bridged Azobenzene with Visible Light through Resolved S₁(nπ*) Absorption Bands