Magnetic field effect on the polymerization of fibrin fibers

The photo-emulsion polymerization of styrene using benzoin or dibenzyl ketone as photoinitiator, with or without magnetic field, has been followed with time. The magnetic field effect is best seen at low rates of radical generation. The field shortens the particle nucleation period to a small extent

The influence of calcium ions on the polymerization induced in fibrinogen solutions by thrombin and by Reptilase has been investigated by means of static and dynamic light scattering in combination with measurements of the release of the fibrinopeptide A. The calcium concentration was varied in the

Fluorcsccncc from the 'A, state o~glyosal is quenched by a magnetic field and the prc-cxponential Factor of phosphorcsccncc from lhc 3A, state increases with increasing mugetic field. These finding arc csplained by the cnhancemcnt of inrmmolcculor intersystcm crossing by the mugnctic field.

The magnetic ®eld effect on the electrochemical behavior of hemoglobin at the silver electrode was investigated by cyclic voltammetry. When a 0.4 T magnetic ®eld was applied to the cell containing 1610 76 M hemoglobin (pH 5.0), both anodic and cathodic peak currents increased observably at 10 mVas d