Nope, but I agree that people do mention that from time to time. Here's a more complete answer --
A chelator is a molecule that has the unusual ability to attract and securely hold onto certain types of metal ions. What creates this unusual abililty is that each molecule of a chelator has 2 or more spots in its structure that it can use to attract and trap a metal ion. Each spot by itself is not very strong, so one "trap" isn't enough. A molecule must have multiple "traps" to successfully catch and immobilize the metal ion for that molecule to function as a chelator.
Not every metallic ion can be caught by a chelator. Only "multivalent ions," meaning ions that have 2 or more electrical charges, can be trapped. Lead, calcium, magnesium, iron, and copper are all examples of metals that can become multivalent ions.
Citrate -- the ion that is created from sodium citrate or potassium citrate -- is a chelator because it has 3 places in its structure to attract and catch metal ions.
https://en.wikipedia.org/wiki/Trisodium_citrate
EDTA -- the ion created from tetrasodium EDTA -- is a chelator because it has 6 places in its structure that attract and trap metal ions.
https://en.wikipedia.org/wiki/Ethylenediaminetetraacetic_acid
Acetate -- the ion created from sodium acetate or potassium acetate -- has only one place that is capable of attracting metal ions. Because it has only one suitable "trap", it doesn't have enough strength to hold onto any ion it might attract. So it's not a chelator.
https://en.wikipedia.org/wiki/Sodium_acetate[/QUOTE
That's a good answer.
