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Beilstein J. Nanotechnol. 2017, 8, 1427–1445, doi:10.3762/bjnano.8.143
Figure 1: Spin dependent processes in organic solar cells. (Right) The steps from light absorption (a) toward...
Figure 2: Vector model of the spin states of a radical pair. Here the red and blue arrows show the spin vecto...
Figure 3: Schematic representation of the energy levels of a radical pair. The spacing between the S and T0 l...
Figure 4: Schematic representation of singlet−triplet transitions in a radical pair. Top: S−T0 transitions oc...
Figure 5: Formation of MFEs upon recombination of SCRPs. In this example the (R1R2) molecule goes to the sing...
Figure 6: Re-encounters of radicals. In liquids, particles usually move by means of diffusion. In this situat...
Figure 7: Calculated time-resolved MFE traces as obtained by monitoring recombination fluorescence, resulting...
Figure 8: MARY curve, i.e., magnetic field dependence of the reaction yield for a singlet-born radical pair. ...
Figure 9: Principle of the RYDMR method. Top: reaction scheme – interconversion mixes the S and T0 of a radic...
Figure 10: Top: Populations of the electronic spin state of an SCRP – when the radical pair is singlet-born in...
Figure 11: Scheme of CIDNP formation by spin sorting at high magnetic fields. Top: EPR spectra of the two radi...
Figure 12: Scheme of triplet-state OEP and ONP formation. In anisotropic molecules, the ISC process S1→T1 has ...