Well, after one epoxidation of the diene you’ll still have an alkene. It won’t be as reactive as the diene, but it is still capable of undergoing epoxidation.

Yes – it will, sorry, I should have put that in there!

mCPBA is the electrophile in this reaction and the alkene is the nucleophile. In the transition state, the C-C pi bond is breaking and there are partial positive charges on the alkenyl carbons. So groups bonded to the alkenyl group that help to stabilize the positive charges will lead to a more stable (lower energy) transition state, accelerating the reaction.

It depends! I once used mCPBA in a reaction which had a diene and two ketones. The diene was electron poor (connected to an ester) and only one of the ketones was really accessible. So it did a Baeyer-Villiger!

Just quench with bisulfite to get rid of the oxidant, acidify and extract. You can run columns on carboxylic acids if you acidify your eluent.

Epoxidation won’t happen except with electron-rich alkenes. The most likely outcome is a Baeyer-Villiger.