The W-band continuous-wave electron paramagnetic resonance (EPR) analysis of chemically induced polarons in drop-cast and spin-coated polyphenylenevinylene-type and polythiophene-type polymer films reveals rhombic g tensors in both cases. The dependence of the W-band EPR signals on the orientation of the spin-coated films with respect to the magnetic field indicates a high degree of backbone alignment with the substrate and allows a partial assignment of the g tensor orientation. The derived molecular orientations of the polymer chains in the spin-coated films show clear differences between the two types of polymers. The proton hyperfine interactions obtained from X-band HYSCORE (hyperfine sublevel correlation) and Q- and W-band pulsed ENDOR (electron-nuclear double resonance) experiments are interpreted in terms of earlier theoretical studies on the extension of the polarons.
We report the photochemical activity
of carbon powder in the generation
of hydrogen from water by laser irradiation, without any electrodes
and photocatalysts. The gas was obtained by laser irradiation in the
VIS-NIR range and was dependent nonlinearly on the laser power density.
From a gas component analysis and a repeated irradiation experiment,
it was found that the carbon powder was oxidized and acted as a sacrificial
reagent in the photochemical hydrogen generation. In addition, a highly
carbonized charcoal, known as Bincho-tan, was found to effectively
work for the hydrogen generation.
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