Band gap energy (Tauc Plot? Constant = 1240? Constant = 2 303?) - 01

I would like to thank you for taking your invaluable time out of your schedule to record this priceless video. I really appreciate it.

I would like to thank you for explained this clearly.

You are a genius and helped me so much!!!!!

If you are just curious about the Energy itself, you can use every value instead of 2.303, because it does not matter. The value of ν, where (αhν)² is zero is only dependent on the spectrum itself.

Very good description

Thank you very much for this video,
You help all researchers of world to move forward, Your video is excellent :)
Good continuation

very nice ...get more information from your video thanks ..may you live long

Kudos!
Excellent video

Thanks a lot for the timely sharing

Can I use the constant=2,303 for UV-vis in thin film mode?

very good explanation ..hats off

I wish you had a video about Urbach energy 😅

really good video sir please make a video of cut off wave length and band tail parameter graphs also those are very useful
for more

very professional presentation and hopefully, to see more in the future

Thank you so much, this is really helping my theses. U explained it so well

Best explanation. Thank you so much!!!

In my undergraduate thesis, in the UV-Vis experiment, we were give wavelength (nm) and Transmittance (in percentage) (in your case, it was absorbance).
Then I got the absorbance by using Beer's law, A=2-Log(10)[%Transmitance]. Then I continued with the other steps.
I hop this is right

thank you so much, helpful for my work in the laboratory.

Your video is excellent.

For the thin film, we need to measure the thickness of film where the L may not be 1.
The thickness could be measured by ellipsometry or some optical instrument~

really help me to learn.. thanks to youu !

What about concentration of Beer Lambert's Law, as A=ecl, where e = molar absorption coefficient, c= concentration,mol lit-1 and l=path length

Hi, does thickness of material matter while calculating the absorption coefficient?

I am wondering in min 15:30, if I am conducting the measurement on thin films, then instead of 2.303 x A/1cm, I should divide Absorbance by my actual thin film thickness (.0002 cm in my case), right? So my absorption coefficient would look like: a= 2.303 x A / .0002

Very valuable video.

Thank you so much, this is really helpful.

excellent and precise video. Thank you

Excellent video! Any book or paper where I can find this explanation? to reference it in my thesis. Thanks

Incase of Solid samples, how to take L value? Still we have to take path length (1 cm) ?

You are great. Thank you very much

Very nice video ,
Thank you so much, this is really helpful.

Well explanation Anna.. we can use this for both disperse sample and direct powders??

So nice video. thanks a lot.......

Thank you! It's so useful material. Where can I download a word file?

Thank you so much 💓💓

JazakAllah..

Thank you So Much for detail explanation... God bless u all ...

Thank you so much, please can you explain how to know when a = 2 or 1/2
how to know the nature of transmission. indirect transmission or indirect transmission.
Thank you

Thank you so much for the video. but I have a question. 'L' is for the thickness of the cuvvette. what if my sample is a film and there's nothing between my sample and light. (the incident light directly hit my sample because i didint use cuvvette or sample holder)

Great👍🏼👍🏼👍🏼Thanks a lot.

very informative . thanks alot for sharing such a beautiful video . how can we find band gap of an unknown material . i mean we have no idea either it have direct/ indirect bandgap. secondly can you recommend any book to study band gap analysis.????

ok subscribed!

thank you so much for the video....Really useful.....I have a doubt.. Could you write the formulas that you have wrote in the origin. becos, It was not clearly visible to me.

thank you so much!

thank you for calculate the energy gap, I need videos that show how calculate the Refractive index, Extinction factor, real and imaginary of Dielectric constant and Urbach tail energy, with my appreciate.

Thanks a lot sir

correction plz
n=2 for indirct band gap while n=1/2 for direct band gap

Very nice presentation 👍
Alpha is linear absorption coefficient?

Thanks for your helpful video. I have some question.
I think you assumed that there is no reflection at the surface of sample because reflection at surface of solution is negligible. But in case of thin film, there must be reflection at the surface. So Io must be changed into Io-Ir (Ir is intensity of reflected light), because UV-vis only detect the intensity of transmitted light to calculate absorbance. In this case, should I measure the reflectance in reflection mode and recalculate the absorbance to obtain alpha?

thank you so much, it good work... regards

Nice video. But what if we dont know if our material is direct or indirect band gap? which value of n should we use?

there is any reference for the citation?

hello, thank you for the video..it really helps me to calculate the band gap of my nanoparticle. mai I ask the pdf /word version of this file? thank youu

thanks a lot, very love this video.

I have a question, if I use UV-VIS measurement for solid samples without cuvette, do I need to multiply 2.303 factor for values of the Oy axis? Or I just need (Absorpbance x energy)^m ???
Many thanks!

Thank you so much for this wonderful video. But I have a question. If I understood it correctly we can use this formula only for solutions. Because you mention about quartz cuvette and "cm-1" is depend on length of the cuvette.
If I will use thin film, how can i use alpha value? In this case, is it related to film thickness?

How can we get to know that whether it is direct or indirect

Very interesting. Some bibliographical reference that you can recommend me

What about concentration in Lambert beers law?

First of all Thank you very much for the valuable video. I wanted to ask can we draw Tauc plot for film absorption spectra?

Hi, My sample is a thin film of thickness 1.5nm deposited on a quartz substrate of 0.025cm, which thickness should I put according to your video it should be the path length of the sample i.e. 1.5nm, am I correct? Also, the unit should be cm?

Thank you very much

Good

Thankyou sir

please share the word or pdf file u have made ...

Hello, If you used Kubelka Munk to convert reflectance to absorbance, you cannot use Lambert Beer's law to convert Abs to Coefficient. How would you make Tauc plot then?

Pathlength shouldn’t be the sample thickness??? What if our sample has a thickness???

I have a Question, How we look for a correct value rang in Y axis?. In many papers took different rang B/w 0 to 0.1 or 0 to 1 or 0 to 80etc.

What is the concentration of the solvent by "alpha"?

Can equation eg= 1240/waveleth be used for transmittance spectra data obtained from uv vis?

This method is only useful for nanomateriales, I mean if I want to calculate the band gag for example a solution of porphyrin. Could I ?

Thank you soo much for this helpful video. can you send me this video as a word file, please?

Very useful video for beginners.Can you give the word file??

for liquid same ok but for powder sample the cuvettes setup is not present so is their calculation will be change

But what if your sample is solid? What should be “l”??

what about solid state uv-vis

is the same method used if i use transmittance (%T)? does the equation become ---> (lambda*hv)^n = (2.303*%T*hv)^n ?

how would we know if our material is in direct transition or indirect

Could you please share the word file

from graph where i take slope

thanku sir....can i get this document (word file which make in video)? please.☺

Some biblical reference to quote it in my thesis, please.

Great!!! Congratulations for the video, can you send me this video as a word file, please? I'd like to use with my coleagues. Thank u

thanks~讓我受益良多

dude, n = 2 for indirect and n = 0.5 for direct

How do we know the value of n??I mean to say can we find if we have direct band gap or indirect band from uv spectroscopy?

Plz check your email
I m very confused about my UV data