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[弱电磁场对水溶液中过氧化氢生成速率的影响]

[Effect of a weak electromagnetic field on the rate of hydrogen peroxide production in aqueous solutions].

作者信息

Ponomarev V O, Novikov V V, Karnaukhov A V, Ponomarev O A

出版信息

Biofizika. 2008 Mar-Apr;53(2):197-204.

PMID:18543761
Abstract

A theoretical model of the mechanism of action of weak electromagnetic fields on water solutions has been constructed. The model predicts the redistribution of protons on spatial inhomogeneities in water medium. It is shown that an external field leads to the phasing of ions on the standing wave, which is considered as an inhomogeneity. As a result of an inhomogeneous distribution of hydrogen ions, local regions with a higher and lower acidity arise. The acidity of medium substantially affects the rate of chemical reactions; therefore, the exposure to a weak external field can change this parameter. The effect of local changes in acidity on the rate of hydrogen peroxide production was considered. It was predicted that the exposure to a weak electromagnetic field with particular parameters can increase the rate and, as a consequence, the concentration of hydrogen peroxide in solution.

摘要

构建了弱电磁场对水溶液作用机制的理论模型。该模型预测了质子在水介质空间不均匀性上的重新分布。结果表明,外部场导致离子在驻波上的相位化,驻波被视为一种不均匀性。由于氢离子的不均匀分布,会出现酸度较高和较低的局部区域。介质的酸度会显著影响化学反应速率;因此,暴露于弱外部场会改变这一参数。考虑了酸度局部变化对过氧化氢生成速率的影响。据预测,暴露于具有特定参数的弱电磁场可以提高溶液中过氧化氢的生成速率,进而提高其浓度。

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