Thank you so much for this lecture on EIS. It was a very thoughtful, well-organized talk and I am heavily benefitted from this tutorial. I am so thankful. All the best wishes for your research
Really find a great 👍 video to learn eis never had such a organised and detailed video on this topic Thanks you so much for your efforts. I really appreciate it.
Hi Sally! Thank you so much; I'm glad you learned. I have videos on XPS (ua-cam.com/video/_Vf_6Y8CcnU/v-deo.html) and NMR (ua-cam.com/video/6KWY2zhNzsU/v-deo.html) in battery research. I hope these help you
Hi Good content, Have a question: you explained how to correlate the 2 semi circles with SEI and positive electrode, but can you explain what is the linear correlation at very low frequencyies (what is warburg impedence referring to)
Hi Ambbar, I have used ZView and EC-Lab but both are licensed softwares. I can recommend impedance.py as well, a free python package for EIS analysis. There are functions for converting inputs from many different company EIS file formats (I.e. .z, .mpt, etc…)
@@eliassebti9253 Hi Elias, thanks for your well-explained videos, could you explain how can separator prevent the transport of electrons? At around 38'. I'm curious is because the pore size should allow for Li to pass through but why no electron? Is that because the separator itself is non-conductive?
@@sallyju9999 Hi Sally, the blocking electrode you are referring to is made of polyethylene glycol which has extremely poor electronic conductivity. It does, however, allow for the conduction of Li ions through complexation/decomplexation of Li-ions and ethylene oxide (EO) structures (onlinelibrary.wiley.com/doi/full/10.1002/advs.202100736). The pore size is not the reason for conduction.
This is by far the best explanation of EIS I have ever seen. Thank you.
This video helped me in so many ways. I tried figuring out EIS for a while and this solved it so easily and quickly
Thank you so much for this lecture on EIS. It was a very thoughtful, well-organized talk and I am heavily benefitted from this tutorial. I am so thankful. All the best wishes for your research
You are amazing. You are gifted in teaching and you will be a great Professor if you choose to be one. Well done Elias!
Really find a great 👍 video to learn eis never had such a organised and detailed video on this topic
Thanks you so much for your efforts. I really appreciate it.
the easiest and descriptive explanation of EIS🤩
Wonderful. It is veyr informative. Thank you for sharing this knowlege
much thanks from CAS-china about your lectures
Dear Elias, Thank you very much for your exceptional presentation on the EIS!!!
thanks so much. I am much clear on eis now. have been struggling for four days
How to find R trapp
a big big big love for u to upload this one !!!
😀☺☺☺☺☺☺☺☺
hey, very well explained, bravo. Now I have to learn from your lectures. Well Done.
Excellent Lecture ...... Thank you so much. I am also working in the field of Energy Storage Devices and Materials.
Me too
Can u be of some help regarding data interpretation?
Great video! I learned a lot! Thank you so much for posting this video!
Very enlightening lecture......
Thanks
very good explanation......i am new to the field still i can get the things ......
Thank you for creating and posting!
Exceptional presentation!
Very useful! Thank you very much for your explanation
thank you for your geat seminar
I would like to learn more from you about NMR and XPS if you would like to make more videos! So excellent!
Hi Sally! Thank you so much; I'm glad you learned. I have videos on XPS (ua-cam.com/video/_Vf_6Y8CcnU/v-deo.html) and NMR (ua-cam.com/video/6KWY2zhNzsU/v-deo.html) in battery research. I hope these help you
Excellent explanation. Thanks.
Thank you for the nice explanation
thank you so much, that was very helpful
Excellent explanation thank you
Hi, can you please tell me if we want to do EIS for a battery at ocp, do we also need to use a reference electrode?
hi, im having trouble finding this
quote from the shapes of impedance A.R west et al. Adv. Master. 2. 1990 No 3, can anyone pls help me?
Hi Good content, Have a question: you explained how to correlate the 2 semi circles with SEI and positive electrode, but can you explain what is the linear correlation at very low frequencyies (what is warburg impedence referring to)
Hmmm why in my nova the warburg impedance unit were mho istead of ohm?
Thanks for sharing! Big help ^_^
Hi thank you very much for tutorial, do you have zview, yet? with demo version only can graph 15 points is unsifficient.
Regards
Ambbar
Hi Ambbar, I have used ZView and EC-Lab but both are licensed softwares. I can recommend impedance.py as well, a free python package for EIS analysis. There are functions for converting inputs from many different company EIS file formats (I.e. .z, .mpt, etc…)
I'm 3/4ths of the way through looking for magnetic effects?
Excellent
how to calculate IR drop from GCD curve?
thank you very much
Thank you a lot professor
Just a lowly grad student here, but I'm happy to see this is useful!
@@eliassebti9253 Hi Elias, thanks for your well-explained videos, could you explain how can separator prevent the transport of electrons? At around 38'. I'm curious is because the pore size should allow for Li to pass through but why no electron? Is that because the separator itself is non-conductive?
@@sallyju9999 Hi Sally, the blocking electrode you are referring to is made of polyethylene glycol which has extremely poor electronic conductivity. It does, however, allow for the conduction of Li ions through complexation/decomplexation of Li-ions and ethylene oxide (EO) structures (onlinelibrary.wiley.com/doi/full/10.1002/advs.202100736). The pore size is not the reason for conduction.
Thank you so much!
Thanks a lot professor.
Have you any ohter video pour spectroscopy impedance complex (SIC)?
Just a graduate student here! Sorry no videos on the topic :( Good luck
so it's like coulometry but AC and more sophisticated
AC Green' s functions response
화학/화학공학과 전공 관련 강의 동영상이 제 UA-cam 채널에 많이 있어요. 공부하는데 많은 도움이 되었으면 좋겠네요
No room for miracles?
Likes indeed attract likes!