Comparison of manufacturing processes:
electrolysis, proton resonance process and high-voltage plasma process

Colloidal metals and ionic solutions are produced using various manufacturing processes. Each method has its specific advantages and disadvantages, possible applications in the hobby sector and potential risks. One crucial difference has now been independently tested: How reliable are manufacturers’ ppm claims?

Electrolysis

(Ionic solutions)
TEST REPORT No. 29039

Silver

Specification according to manufacturer 200ppm
Laboratory measured value 10ppm
Deviation -95 % from 100

Gold

Specification according to manufacturer 50ppm
Laboratory measured value 0.04ppm
Deviation -99,2 % from 100

Platinum

Specification according to manufacturer 25ppm
Laboratory measured value 0.001ppm
Deviation -99,9 % from 100

Proton resonance method

(secret manufacturing process)
TEST REPORT No. 23889

Silver

Specification according to manufacturer 50ppm
Laboratory measured value 0.7ppm
Deviation -98,6 % from 100

Gold

Specification according to manufacturer 55ppm
Laboratory measured value 0.8ppm
Deviation -98,5 % from 100

Platinum

Specification according to manufacturer 50ppm
Laboratory measured value 0.0006ppm
Deviation -99,9 % from 100

High-voltage plasma process

(HVAC/Bredig manufacturing process)
TEST REPORT No. 4242 / 22590 / 4242 / 32655

Silver

Specification according to manufacturer 10ppm
Laboratory measured value 11.4ppm
Deviation 114 % from 100 %

Gold

Specification according to manufacturer 10ppm
Laboratory measured value 7ppm
Deviation -30 % from 100

Platinum

Specification according to manufacturer 5ppm
Laboratory measured value 5.7ppm
Deviation 114 % from 100 %

Explanation of the results: Only one method delivers what it promises

The significant deviations in the stated ppm (parts per million) make it easy to see that neither electrolysis nor the mysterious proton resonance process are suitable for the production of high-quality colloidal solutions. The quantities in the liquids usually differ by almost 100 % from the advertised values – only a tiny fraction of the metals are actually present in these “colloids”.

This is because electrolysis should not actually be referred to as colloidal metals, they are only ionic solutions. There is a chemical-physical difference between ionic metal solutions and colloids, which influences the quality, particle size, concentration, coloration and effect in the metabolism.

Electrolysis produces ionic solutions (reactive) and not colloidal dispersions. Read more: Differences between electrolysis and the high-voltage plasma process
No statements are made about the manufacturing process for the proton resonance method and there is no scientifically verifiable literature. Read more: Proton resonance – a questionable procedure
The high-voltage plasma process produces colloidal dispersions = real colloids. There is extensive scientific literature and various studies on this. Read more: Colloidal metals in the high-voltage plasma process

The ICP-MS (Inductively Coupled Plasma Mass Spectrometry) analysis method is a state-of-the-art method for determining metal concentrations in colloidal solutions.

The studies were conducted by the Institute of Public Health in Ostrava, Czech Republic.
Partyzánské náměstí 2633/7, Moravská Ostrava, 702 00 Ostrava