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WIT Press

ACTIVATED BICARBONATE SOLUTIONS AS MODELS OF CONFINED ONTIC OPEN SYSTEM AND PROTOTYPES OF LIVING RESPIRING SYSTEMS

Price

Free (open access)

Volume

Volume 5 (2010), Issue 1

Pages

8

Page Range

30 - 38

Paper DOI

10.2495/DNE-V5-N1-30-38

Copyright

WIT Press

Author(s)

V.L. VOEIKOV, DO MING HA, O.G. MUKHITOVA, N.D. VILENSKAYA, S.I. MALISHENKO & A.S. BOGACHUK

Abstract

Addition of H2O2 in sub-millimolar concentrations to 1–5 mM Na/K-bicarbonate solutions initiates in them a process accompanied with low-level photon emission amplifi ed with luminol. Photon emission lasts without decay for many months in samples isolated from air and ambient light. Photon emission intensity reveals monthly and circadian rhythms. Amplitude of photon emission intensity from test-tubes filled with active solutions increases two- to threefold on periods coinciding with the eclipses of the moon and the sun. Preparations of water-soluble fullerenes in dilutions equivalent to their concentrations 10–13, 10–15 and 10–19–10–20 M increased photon emission two- to threefold while intermediate dilutions affected it much weaker. We suggest that addition of H2O2 to aqueous bicarbonate solutions initiates in them cyclic chain reactions in which water is oxidized with oxygen. Bicarbonate may stabilize these cyclic reactions due to its ability to participate in free radical reactions. Extremely long-lasting photon emission (high density electromagnetic energy) from activated bicarbonate solutions indicates that they reside in stable non-equilibrium (excited) state supported presumably by continuous efflux of low density (electromagnetic) energy from the environment. Such systems may represent a model of Confined Ontic Open Systems able to transform low grade energy into high grade energy. It is notable that bicarbonate is the necessary constituent of cytoplasm of aerobic cells and of important biological liquids, in particular of blood plasma. Normal and healing drinking waters also usually represent bicarbonate solutions.

Keywords

bicarbonate, hydrogen peroxide, non-equilibrium state, water, photon emission