Topic: Sonogashira Coupling hydroxy group removal Mechanism (Read 1429 times)

emmazola · « **on:** January 08, 2024, 12:32:48 PM »

Hi all,
I am currently writing my report and had to answer the question: The alkyne was chosen as the hydroxy isopropyl group can be easily removed, as shown in the scheme below, permitting further coupling reactions to take place. Draw a mechanism to show how this might occur, take into account the pKa of an alkyne.
I was unsure on the mechanism for this so drafted one up in ChemDraw, could anyone please look over this and comment on its validity? Many thanks!

Babcock_Hall · « **Reply #1 on:** January 08, 2024, 01:55:06 PM »

I see a number of things that strike me as debatable. The one that jumped out was that you have a hydride ion attacking an electron-rich position near the end of the mechanism.

rolnor · « **Reply #2 on:** January 09, 2024, 04:42:14 AM »

I dont understand, Is the alkyne a protecting group? What is it protecting?

rolnor · « **Reply #3 on:** January 09, 2024, 04:53:21 AM »

As the first step, you just pick the proton from the hydroxyl group, forming a alkoholate and hydrogen gas.

Topic: Sonogashira Coupling hydroxy group removal Mechanism (Read 1429 times)

emmazola

Sonogashira Coupling hydroxy group removal Mechanism

Babcock_Hall

Re: Sonogashira Coupling hydroxy group removal Mechanism

rolnor

Re: Sonogashira Coupling hydroxy group removal Mechanism

rolnor

Re: Sonogashira Coupling hydroxy group removal Mechanism

Sponsored Links