2D NMR Introduction
ฝัง
- เผยแพร่เมื่อ 4 ส.ค. 2024
- An introduction to 2D NMR techniques. After a little refresher on 1D NMR, we dive into some of the basics on what 2D NMR is, and how we take 2D NMR experiments. Then we practice reading 2D spectra, and look at some simple examples for three different 2D NMR techniques: COSY, HSQC, and HMBC.
Wow, this was a throwback to my NMR undergrad class. Thank you for sharing these videos as TH-cam was lacking 2DNMR tutorials 😁
Hi Grace!
I simply wanted to thank you for your precious help!
I'm and italian student (a master degree in chemistry) and this video helped me a lot in understanding how to solve my exercises about the 2D-NMR: I was in trouble with in prepearing this exam.
I hope you're having a good time.
Bye and thanks again!
Thank you so much!!! I have been trying to wrap my head around this for a while!!!
Good morning, thank you so much for making this. This is great!
Wow! thank you so much for making this video. Very comprehensive explanation.
Thank you for this easy to understand introduction!
An outstanding video. It helped me a lot. Thanks for your effort and disponibility.
It was a great information.
It's really useful in interpretation of complex structures
U helped me a big time... thank you so much ❤️
you are 10x better at explaining than all professors that i’ve come across
thanks for the great lecture.
Thank you, this video help me in understanding 2D-NMR
Thank you ❤
finally i gather some clear concept thanks a lot,.
Such a nice explanation ❤
Thanks a lot, Grace
That's a superb introduction.
I've two little questions, 1) can I use the intensity of spots for distinguishing between protons?
2) What are the extra spots in some spectrum? I mean like (2ppm, 46ppm) in the last slide. Is it for impurity?
Thank you Prof.
Excellent lecture
nice explanation
Great!
GOD bless you!
Nice 👍❤️
what are the different types
thanQ mam
Thank you for the lecture !
Just a french student passing there haha.
Please, can you mention the referance?
Thank you, this video help me in understanding 2D-NMR