For the purpose of this question, let’s assume a peanut weighs 0.5 grams.
What’s the purest element or compound with a mass greater than a peanut, ever to be purified by humans ? It can be a solid, liquid or gas. And it must have the same chemical structure for compounds (isomers not acceptable). It also has to be in one piece.
My guess will be silicon for integrated circuits.
Thanks
I seem to recall a project whose goal was to make perfect (or very nearly perfect) spheres of silicon crystals in order to assist with the official definition of the kilogram. I think they’re supposed to be pure silicon.
Link to NIST webpage about the project.
ETA: Upon reading the webpage it appears the spheres are only 99.9995% Si-28 with the remainder being other isotopes.
Other isotopes of silicon. The OP doesn’t seem to be distinguishing between isotopes.
I can’t tell what the overall purity of the IAP spheres is, but electronic grade silicon goes to one part in 100 billion (99.999999999%). I think the OP is probably right that this will be hard to beat.
Can a gas be in one piece?
For various values of “one” and “piece.” (Also your definition of to “be” and “in.” 
)
Maybe if the gas is contained within a, well, container, and the gas is a pure element or compound. But that silicon number would be hard to beat, even if you tried with really light (hydrogen I guess) or really heavy gas (can’t remember which is heaviest. Radon, maybe?) displacing the rest.
Before reading the thread I probably would have guessed Gold for the solid, but now it seems like it is an amateur.
You might be able to top those silicon numbers with the best lab-grown sapphires. At one point, the plan for LIGO called for each of the mirrors to be a 40-kg sapphire crystal with no crystalline defects at all. Granted, defects are not the same thing as impurities, but it’s hard to get the defect rate that low unless the impurity concentration is extremely low, too.
This seems to be the state of the art in terms of purity. They managed to refine the Silicon-28 so that the other isotopes of silicon were removed, but it still had some other contaminants measured in nano-grams. It is used as a technique to define a Kilogram in terms of the number of atoms the sphere contains. This verifies the measurements of electrical Kibble balances, the worlds most accurate weighting machines.
I cannot think of another application that would require such an extremely high degree of purity in any material.