Monte Carlo simulation of diffusion and reaction in water radiolysis – a study of reactant `jump through' and jump distances

Many axons follow wave‐like undulating courses. This is a general feature of extracranial nerve segments, but is also found in some intracranial nervous tissue. The importance of axonal undulation has previously been considered, for example, in the context of biomechanics, where it has been shown th

A free energy barrier AF+ = 174.2 kJ/mol for the self-exchange electron transfer reaction model Fe+/Fe2+ in water has been calculated by combining Monte Carlo simulations and the statistical perturbation theory. We have shown that, even for those electron transfer reactions that present a very high

Monte-Carlo simulations are used to investigate the effects of multiple ionization on the formation of HO Å 2 /O ÅÀ 2 and H 2 O 2 in the radiolysis of water by 12 C 6þ ions up to $430 keV/lm, at neutral pH and 25 °C. Taking into account the double and triple ionizations of water molecules, the prima

A differential anomalous X-ray scattering (DAS) study of the structure of a highly concentrated aqueous solution of zinc bromide (19.5 molal) is presented. Synchrotron radiation was used for four diffraction experiments at photon energies of 12500 eV, 13462 eV (Br-K-edge) and 9000 eV, 9650 eV (Zn-K-