The phrase true colloidal silver is used to describe a silver colloid wherein the silver content is composed of silver nanoparticles in majority as compared to silver ions.
The Colloidal Science laboratory is credited as giving the substance its official name which it did back in the early 90s.
There is a certain standard of the substance which is known as true colloidal silver. A batch of colloidal silver that has a very high concentration of nanoparticles is known as true colloidal silver.
It is only when the nanoparticle content is in majority over the silver ions that colloidal silver gains the above mentioned title.
Measuring colloidal silver
A technique known as atomic emission spectroscopy can be applied to determine the concentration of silver in a batch of CS. The unit of measurement used to denote the silver content is known as parts per million.
The ratio of silver mass in comparison to the distilled water within which it is to be found is what PPM tells us. To make it simpler to we understand that a reading of nPPM tells us that one liter of the liquid has a total of n milligrams of silver.
The total silver concentration does not aid us to determine whether the batch is true colloidal silver or not. That is to be found out by determining the nanoparticle versus silver ions ratio.
The concentration of silver does not in reality restrict the CS in any way. This is because so long as the nonparticles are in majority the liquid can still be true colloidal silver irrespective of its silver concentration.
It is important for individuals to know that the products being sold as ionic silver in the market have a much lower nanoparticle content as compared to true colloidal silver.
determining true colloidal silver
The nanoparticle concentration needs to be determined on its own, regardless of the silver ion content when checking to see whether the liquid is in fact true colloidal silver.
Majority of the silver concentration products are composed of both silver ions and nanoparticles. This is why a method to separate these two contents was developed.
The correct procedure for separating the silver nanoparticles from the silver ions came about after years of trial and error.
With the G-forces and time intervals required determined scientists could now easily separate the two components.
Dynamic light scattering techniques wherein which a powerful beam was made to pass through the silver concentration was the technique used for the process.
Individual photons from the nanoparticles could then be counted.
Finally the reflected laser energy would be made to process though digital signal processing algorithms to arrive at the accurate results.
With the two items separated, figuring out whether the liquid concentration is true colloidal silver or not becomes obvious.
When the nanoparticles count is observed to be more than 50% the concentration will be termed as true colloidal silver.
Unfortunately there is no way of determining whether a silver concentration is true colloidal silver apart from the detailed laboratory mentioned in brief above.
You will be able to find many colloidal silver products being marketed as true colloidal silver whereas in reality the producing company does not have any idea about nanoparticle percentage in their product.
Making colloidal silvers is cheap, easy and a good way to improve health. Prior to beginning treatment you should get deeply acquainted with colloidal silvers risks.