What an amazing video! Took me a while to find it, I love it! Every other video talks about biology and DNA…
@mariappanm76772 ай бұрын
For a new compound with the UV data available, how to fix the correct excitation wavelength to measure the emission spectra?
@wilurbean3 ай бұрын
ICP plasma is quite pretty, but its also pretty high in UV and just plain bright. Make sure you got your shades on
@omarb26533 ай бұрын
You explain these concepts very elegantly!
@gnasher143 ай бұрын
Now I actually understand my university analytical techniques content.. Thank you!
@md.sydulislam43623 ай бұрын
nice
@marianabuitrago62713 ай бұрын
in simple words, YOU ARE MY HERO <3
@kennethprata4 ай бұрын
thank you dr chong, now i can do my lab report 🤭🤭
@FrancisChongYY4 ай бұрын
You are most welcome, Kenneth! Thanks for watching!
@madjidabdel7604 ай бұрын
Why you did not made videos about HPLC, your are amazing
@mariad7074 ай бұрын
Thank you for explaining the concepts so well ! 🌷
@nareshbarik53844 ай бұрын
Thank you ♥️
@AlCaponi4 ай бұрын
Caught me off guard at 06:09 with the Pokémon healing sound. Guess even Electroosmotic Flow needs a Pokémon Center visit to get its charge back up. Great explanation, thanks for the laugh!
@leewilliam34174 ай бұрын
Thanks 😊
@richardambrose18275 ай бұрын
Since the emission spectra was made using 350 nm wavelength, is the excitation wavelength in the excitation spectra which gives the max intensity for 450nm emission wavelength, 350nm itself?
@JacobSankus6 ай бұрын
Great explanation, thanks for the help !
@shaguftashaikh94016 ай бұрын
Very well explained and fantastic animation. Thanks. Keep up the good work and quality
@dyahlangensari48027 ай бұрын
THANK YOU!!! you really help me a lot to passing thru my exam and my prof's class.....
@user-ym6ps9df5x7 ай бұрын
great explained
@user-ki8ig1mx7l8 ай бұрын
Great explanation. Thank you
@nfaraji97808 ай бұрын
Very well explained, thanks Francis.
@saikrishnasurajbavirisetty78048 ай бұрын
Very helpful , thank you 🤟
@saisritamkar47239 ай бұрын
Finally all doubt clear..Thank you so much sir.❤
@JS191909 ай бұрын
Absolutely glorious! Thank you so much for this comprehensive explanation with great visuals to boot!
@diyorolimov64339 ай бұрын
Thank you Francis! It was simple yet so easy to digest.
@saranshgautam301111 ай бұрын
best explanation!
@TV-rf8hq Жыл бұрын
Thank you for the helpful video!
@RomanoAlbert-ov5kt Жыл бұрын
coool
@KatarinaTVD Жыл бұрын
THANK YOU so much for this video series, especially for explaining the reversed flow and how the electroosmotic flow modifiers work, your presentation explained it better than a book on the subject of capillary electrophoresis I spent a couple of hours reading.
@princesse9865 Жыл бұрын
Thank you good video
@PremKumar-bc8rq Жыл бұрын
my question is which is use to find what? i mean to say exc spectrum is used to find emission or emission is used to find excitation. which to run first?
@miramsl8795 Жыл бұрын
thaaaank youu
@christophergoudarzi9992 Жыл бұрын
Very helpful, thanks so much!
@wz1y130 Жыл бұрын
thank you ssoooooo much for these episodes
@pascalkane3272 Жыл бұрын
The electrir travolator analogy was great !
@pascalkane3272 Жыл бұрын
thx please become my proffesor My university is hiring
@mukheshk.g.1850 Жыл бұрын
one of the best video I came across
@annmatt5837 Жыл бұрын
Thank you Sir for your detailed video.
@ehtishamiqbal4436 Жыл бұрын
Excellent method to explain about capillary electrophoresis. Thank you
@cutieaadi9599 Жыл бұрын
So, you mean for different machine we have to find out working excitation and emission wavelength? how much variation could be possible among different machine? I have seen in different publications that 300nm (some 305nm) excitation and 410nm (in some 420nm) emission, thus, my question is, by doing spectra reading in my machine cytation5, I explored higest emmision reading at 350nm and 290nm Excitation....I am confuse with this much variation. is it possible?
@jyonlineshop7566 Жыл бұрын
Amazingly simplified explanation , keep up , I am waiting for more video , this is how the explanation should be ,this indicates that you really master what you explain , God bless you .
@majdhussain7546 Жыл бұрын
Is IcP AES is the same as flame atomic emission spectroscopy
@kan5910 Жыл бұрын
This is amazing
@martinarenzi4744 Жыл бұрын
Thank you thank you!! Your video is so well organized and clear and full of hints to further study. Please, please make other playlists on other instruments! Such as ICP MS and others
@sophielyons3506 Жыл бұрын
Great video ! Thank you !
@suzu.1 Жыл бұрын
Why is the used of "coupled" word in inductively coupled plasma. Why we can't say only inductively plasma? Please you reply
@nancysohlberg8150 Жыл бұрын
Super clear and helpful, been looking for this explanation for a while, thanks so much for making this!
@Arshzal Жыл бұрын
ur video helped me in preparing exam..thankyouuuu/..u deserve the bestttttttt
Пікірлер
My tiny brain trying to understand this: 7:44
Great ❤ thanks
Watching this on 2024
What an amazing video! Took me a while to find it, I love it! Every other video talks about biology and DNA…
For a new compound with the UV data available, how to fix the correct excitation wavelength to measure the emission spectra?
ICP plasma is quite pretty, but its also pretty high in UV and just plain bright. Make sure you got your shades on
You explain these concepts very elegantly!
Now I actually understand my university analytical techniques content.. Thank you!
nice
in simple words, YOU ARE MY HERO <3
thank you dr chong, now i can do my lab report 🤭🤭
You are most welcome, Kenneth! Thanks for watching!
Why you did not made videos about HPLC, your are amazing
Thank you for explaining the concepts so well ! 🌷
Thank you ♥️
Caught me off guard at 06:09 with the Pokémon healing sound. Guess even Electroosmotic Flow needs a Pokémon Center visit to get its charge back up. Great explanation, thanks for the laugh!
Thanks 😊
Since the emission spectra was made using 350 nm wavelength, is the excitation wavelength in the excitation spectra which gives the max intensity for 450nm emission wavelength, 350nm itself?
Great explanation, thanks for the help !
Very well explained and fantastic animation. Thanks. Keep up the good work and quality
THANK YOU!!! you really help me a lot to passing thru my exam and my prof's class.....
great explained
Great explanation. Thank you
Very well explained, thanks Francis.
Very helpful , thank you 🤟
Finally all doubt clear..Thank you so much sir.❤
Absolutely glorious! Thank you so much for this comprehensive explanation with great visuals to boot!
Thank you Francis! It was simple yet so easy to digest.
best explanation!
Thank you for the helpful video!
coool
THANK YOU so much for this video series, especially for explaining the reversed flow and how the electroosmotic flow modifiers work, your presentation explained it better than a book on the subject of capillary electrophoresis I spent a couple of hours reading.
Thank you good video
my question is which is use to find what? i mean to say exc spectrum is used to find emission or emission is used to find excitation. which to run first?
thaaaank youu
Very helpful, thanks so much!
thank you ssoooooo much for these episodes
The electrir travolator analogy was great !
thx please become my proffesor My university is hiring
one of the best video I came across
Thank you Sir for your detailed video.
Excellent method to explain about capillary electrophoresis. Thank you
So, you mean for different machine we have to find out working excitation and emission wavelength? how much variation could be possible among different machine? I have seen in different publications that 300nm (some 305nm) excitation and 410nm (in some 420nm) emission, thus, my question is, by doing spectra reading in my machine cytation5, I explored higest emmision reading at 350nm and 290nm Excitation....I am confuse with this much variation. is it possible?
Amazingly simplified explanation , keep up , I am waiting for more video , this is how the explanation should be ,this indicates that you really master what you explain , God bless you .
Is IcP AES is the same as flame atomic emission spectroscopy
This is amazing
Thank you thank you!! Your video is so well organized and clear and full of hints to further study. Please, please make other playlists on other instruments! Such as ICP MS and others
Great video ! Thank you !
Why is the used of "coupled" word in inductively coupled plasma. Why we can't say only inductively plasma? Please you reply
Super clear and helpful, been looking for this explanation for a while, thanks so much for making this!
ur video helped me in preparing exam..thankyouuuu/..u deserve the bestttttttt