Independent Laboratory Analysis
Our sample results (September 5, 2008) are available below showing a stable clear CS product with 45.4 ppm. The TEM picture (Transmission Electron Microscopy) shows spherical particles in a range of sizes from 2 to 8 nm. This is an impressive achievement due to the high frequencies we use to induce a high Zeta Potential. CS at this high concentration would generally become cloudy due to agglomeration of nanoparticles.
We sent in 2006 for independent laboratory analysis, samples of our Colloidal Silver Water (24.2 ppm) and Colloidal Gold made using our newly designed CS-12, charged at 48 volts for 48 hours, with 2 large similar electrodes, Alternating Polarity, Constant Current, Stirrer, spinning double Neodymium magnet and Pulse Modulation with proprietary waveforms. The following are unedited reports.
SILVER: These spectacular results show that the silver particle size is no more than 8 nanometres and furthermore is demonstrated to be active against Methacillin Resistant Staphylococcus Aureus (MRSA) within 8 minutes. In this experiment, the efficacy of Biophysica was tested against the bacteria Staphylococcus aureus at four and eight minutes. The subject sample BP (24.20 ppm), showed signs of antibacterial activity equally against both the S1 and S2 strains. At four minutes BP began to inhibit the bacterial growth, while at eight minutes BP significantly reduced the bacterial growth.
GOLD: Pure distilled water. Results show that particles of our sample #1 have size of 2-3 nm. Concentration could be increased from 0.56 ppm with charging for 10 to 20 days instead of only 2 days.
These impressive high quality results are likely due to the use of the above 6 conditions, which we have been researching for the last 10 years.
Research literature indicates that charged nanometre-sized particles smaller than 10 nm exhibit greatly enhanced antimicrobial activity compared with larger particles over 100 nm. Quantum phenomena and non-locality effects on consciousness, mitochondria and DNA may be playing a part at these small dimensions.