Hi Leonardo, Arrow pushing is more difficult with transition metals because they contain electrons in d-orbitals, which are more diffuse than s and p orbitals. It is hard to localize d-electrons and place them on a specific atom in a metal complex, so they are typically not represented using arrows or lone pairs. This is simply the convention -- you can definitely imagine using arrows to denote these types of reactions!
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Nice video, I would like to ask, why does alkene always need a electron withdrawing group come along with to activate this reaction?
some love for the man who helped me reach my deadline
Taught it to me when my professor didn't have time to. Thank you so much!
This is so well-organized it is very helpful to understand my orgo synthesis class Thank you sm!!!!!!
Nice explanation. All understood. Thank you.
Great Video
Excellent explaination sir, Indian CSIR net( exam) organic parts is very difficult.
Well explained
Why does the arrow-pushing notation for electrons fall apart when dealing with transition metals?
Hi Leonardo,
Arrow pushing is more difficult with transition metals because they contain electrons in d-orbitals, which are more diffuse than s and p orbitals. It is hard to localize d-electrons and place them on a specific atom in a metal complex, so they are typically not represented using arrows or lone pairs.
This is simply the convention -- you can definitely imagine using arrows to denote these types of reactions!
Nice video, I would like to ask, why does alkene always need a electron withdrawing group come along with to activate this reaction?
thanks for video
You're welcome!
thank you boss
Great video, very helpful for understanding my grad student's research
Cool, I'm glad it helped!
Thanks for video. In my opinion you missed one important thing, syn-addition/elimination
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