Because there are no chemicals in Atomic Particle Colloidal Silver , and due to the uniqueness of the atomic particle size, when ingested or left under the tongue, the atomic particles will quick be absorbed by the metabolism.

That cannot be said of inferior products that contain huge nanoparticles, because the nanoparticles are too large and heavy to be absorbed, they spend more time in the stomach, and what happens when the stomach acids are introduced to silver?

Toxic Chemicals – That is what happens. Stomach acid is closest to HydroChloric Acid, which caused baldness and loss of hair, so ladies, you may want to think twice about using nanoparticle products.

Now, I know many nanoparticle producers are quickly going to jump on this to defend their particle size, so let me start off with making a few statements about their claims of have super small particles.

1. They are unsubstantiated with NO Certificates of Analysis from reputable companies
2. They have NO Proof of 2nm or 3nm particle sizes, the only people to have made the particle size that small is Universities that have equipment that costs multi millions of dollar.
3. Outside of Universities the smallest particle size every achieved has been 6nm.
Here are the facts:

• A Micrometer is a thousand times larger than a nanometer, being 1 millionth (1,000,000) of a meter in size. Micrometers are also referred to as microns and are 1/25, 250th of an inch.
• A Nanometer is 1/25.4 millionth of an inch (1/25,250,000th) or 1 billionth (1,000,000,000) of a meter in size.
• An Atom is approximately 1/250 millionth (1/250,000,000) of an inch in size.
• Nanoparticles are particles that are measured in nanometers (1 billionth of a meter).
• Nanoparticles that are 1 nanometer in size are 25,250,000th of an inch.
• Micro-particles are particles measured in micrometers (1 millionth of a meter) or microns.
• Micro-particles that are 1 micrometer in size are 1/millionth of a meter or 1/25,250th of an inch in size.
• Colloidal Silver nanoparticles were measured as small as 8 nanometers in size (which is 8 billionths of a meter), but most nanoparticles are much larger than this.
• Ionic and nanoparticle solutions of silver were found to contain particles as large as 200 nanometers (or 200 billionths of a meter) in size.
• In an inch sized area, 126,250 particles would fit if they were as big as 200 nanometers.
• Singular digit sized nanoparticles (those between 3-9 nanometers in size), of silver could penetrate some larger kinds of bacteria if they remained as monatomic ions, but few of them do for long because of magnetic particle attraction.
• Monatomic ions of Colloidal Silver are usually unstable and quickly change into polyatomic ions and then later transform into molecular ions.
• Molecular ions are groupings of large, micrometer size particles that are built from many layers of nanometer-sized, polyatomic ions that have gathered together. Molecular ions are as large as or larger than many viruses, bacteria and pathogens and, therefore, are unable to penetrate them (which would cause the most damage).
• Ionic and nanoparticle colloidal silver solutions currently for sale, contain mostly molecular ions of silver made of large particles with a big surface area. This is not a desirable quality.
• Atomic particles of colloidal silver are at least 10 times smaller than the smallest nanoparticles that are from 3-9 nanometers in size.
• Atomic sized particles of colloidal silver are often hundreds or thousands of times smaller than ionic or nanoparticle colloidal silver due to these particles forming large molecular ion groups.

• In the same one inch area that you could fit 126,250 nanoparticles that were 200 nanometers in size, you could fit 200 Million (200,000,000) atomic-sized particles.

• Colloidal silver in Ionic and nanoparticle-sized solutions, kill off small quantities of harmful microorganisms by repeatedly bruising, cutting, shocking and then finally poisoning the weakest ones. Minor results occur by utilizing molecular-sized nanoparticles of silver. These, combined with chemicals like silver chlorides, bromides, phosphates, hydrochloric acid, cyanide and other chemical residues, overwhelm the microorganisms killing off a few in the process. Small amounts are killed off in this manner and the effects are not easily noticeable.

• Atomic-sized particles of colloidal silver kill off large quantities of harmful microorganisms by penetrating them with sufficient momentum which causes irreparable damage. In addition to causing severe penetration damage, they also have a stronger electrical charge than nano and ionic particles have. So as they penetrate viruses, bacteria and other pathogens, they simultaneously shock the microorganisms with multiple electrical jolts. These minute discharges cause further damage which serves to quicken the process of killing them.

Many producers make claims about having the smallest nanoparticle particle size, you can check the facts yourself first:
Converting Atoms into nanoparticles, then convert nanoparticles into microns
Here is one Calculator that can help: http://www.convertunits.com/from/angstrom/to/micron

There are more on the internet to convert nanoparticle into microns, and even nanoparticles in angstroms (which is how atomic particles are measured). Just do an internet search the tools are easy, however unless a company can offer a credible from a reputable testing facility, then I would not believe their ability to achieve a particle size below 6n.

Remember nanoparticles can range from 6n up to 200 nm, since each producer is using different types of chemicals, the nanoparticle size will vary.

The bottom line is if what you are using is working… keep using it,(unless you do not want to lose hair or get premature gray hair) if not maybe it's time to try atomic size particles.