It is a colloidal suspension of porous nanocrystalline TiO2, the particles are 10-50nm in size after grinding with the mortar and pestle. This exact size depends partly on how long you grind it. The applied layer is 7-10 microns thick.
@Jacknotzak We didn't try many other variations. potassium triiodide is the preferred electrolyte. I have heard that tincture works. The sheet metal might work, but it might create an electrolytic action that creates a current that either adds to or detracts from the photocurrent. And did reuse the ITO slides repeatedly. Wash them gently with soap and then acetone, the ITO coating is pretty tough.
This is an laboratory training video to teach basic thin film methods and provide a basis for students to design their own experiments. This particular device has no practical value but dye sensitized TiO2 Graetzel cells are large research area which is beginning to produce commercial products.
I have tried 2 attempts with metal. I am using a gas stove and burner. On both attempts the TIO2 did NOT Anneal and stick (you could rub it off). Either more heat is needed, or in the example with slides the TIO2 maybe annealing with the SNO2 layer. Note that in my trial, the dye didnt stain the TIO2. Thus the oxidation of the TIO2 was still current. I will try a TIO2&Sno2 mix right now.
I keep reading about how dye sensitized solar cells are cheaper than silicon based photovoltaics, how they are becoming more efficient, and how there's ongoing research with them. If they are truly so efficient, why have they not gone into production on a larger scale? Gratzel's company has put them into production with a small-scale mobile product, but what currently stands in the way of larger-scale implementations like rooftop power arrays analogous to photovoltatic rooftop arrays?
Great video! Thanx! What is the conversion performance of such a cell? Can these cells be made in larger sizes, say 2x2 ft (4 sq ft)? Would that reduce the performance or alter the characteristics of the cell in any way?
Tincture will have some triodide I3- ion but it also has a significant amount of alcohol which may interfere with the electroylte properties. You can give it a try.
Fascinating. I assume that as long as the electrolyte remains as a fluid, the dye does not break down? If this is the case, one could possibly prolong the cell life by sealing the edges of the cell with CyanoAcrylate glue.
I have a bunch of questions: Will it work with Povodone-iodine or Potassium triiodide dissolved in water? Can we substitute a sheet of metal for the conductive glass which is to be covered with soot? And lastly, can the glass be cleaned and reused to make another solar cell?
Hi, good video :) thanks :). I have a little doubt, i'm working with DSSCs, and, when i do the process to deposit the thin film of TiO2 by the Dr. Blade method, i have cracking in the film. I have probe some suspensions, but the problem is not resolve. Do you known something to prevent that? Greetings and thanks again :)
i have a question i am doing my master's dissertation on DSSC and i wanna knw why to we need to heat the slide? if possible can we reduce the temperature and increase the time? cause i tried to heat my slide in an oven at 220 C and it cracked completely same observation when i tried to flame it?
Hello, I prepared TiO2 layer in a sligthly alternative way (spraying), but the dye doesn't seem to stick :/. Do you have any idea what could cause this?
If you want to power your home you have to learn to build your own solar panels go to Google and search for: "Top DIY Solar Panels Review" Choose the first result (skip the Advertisement on top)
The efficiency of this demo cell is quite low. Three in series could not match the output from a single small silicon cell. G24 Innovations makes a graetzel cell the claim has 12% efficiency.
It is a colloidal suspension of porous nanocrystalline TiO2, the particles are 10-50nm in size after grinding with the mortar and pestle. This exact size depends partly on how long you grind it. The applied layer is 7-10 microns thick.
@Jacknotzak
We didn't try many other variations. potassium triiodide is the preferred electrolyte. I have heard that tincture works. The sheet metal might work, but it might create an electrolytic action that creates a current that either adds to or detracts from the photocurrent. And did reuse the ITO slides repeatedly. Wash them gently with soap and then acetone, the ITO coating is pretty tough.
This is an laboratory training video to teach basic thin film methods and provide a basis for students to design their own experiments. This particular device has no practical value but dye sensitized TiO2 Graetzel cells are large research area which is beginning to produce commercial products.
I have tried 2 attempts with metal. I am using a gas stove and burner. On both attempts the TIO2 did NOT Anneal and stick (you could rub it off). Either more heat is needed, or in the example with slides the TIO2 maybe annealing with the SNO2 layer. Note that in my trial, the dye didnt stain the TIO2. Thus the oxidation of the TIO2 was still current. I will try a TIO2&Sno2 mix right now.
Great video. The dioxide titanium is totally white. How is possible the the greatzel cells are transparent?
I keep reading about how dye sensitized solar cells are cheaper than silicon based photovoltaics, how they are becoming more efficient, and how there's ongoing research with them. If they are truly so efficient, why have they not gone into production on a larger scale? Gratzel's company has put them into production with a small-scale mobile product, but what currently stands in the way of larger-scale implementations like rooftop power arrays analogous to photovoltatic rooftop arrays?
@YoLninYo
We have created a new playlist for the Dye Sensitized Solar Cell videos, thanks for the suggestion!
Great video! Thanx!
What is the conversion performance of such a cell?
Can these cells be made in larger sizes, say 2x2 ft (4 sq ft)? Would that reduce the performance or alter the characteristics of the cell in any way?
Tincture will have some triodide I3- ion but it also has a significant amount of alcohol which may interfere with the electroylte properties. You can give it a try.
Fascinating.
I assume that as long as the electrolyte remains as a fluid, the dye does not break down?
If this is the case, one could possibly prolong the cell life by sealing the edges of the cell with CyanoAcrylate glue.
I have a bunch of questions:
Will it work with Povodone-iodine or Potassium triiodide dissolved in water?
Can we substitute a sheet of metal for the conductive glass which is to be covered with soot?
And lastly, can the glass be cleaned and reused to make another solar cell?
Where can you get redox electrolytes
Can you please put this in a playlist? thanks.
hello which glass did you use???
is it ITO or FTO
waiting for reply
thankyou
hello...can i use tinture of iodine instead of tri iodide soltn???
waiting fr the reply
i am doin a project on this n need to fabricate it
About the white vinegar, what concentration did you used specifically? Thank you.
Hi, good video :) thanks :). I have a little doubt, i'm working with DSSCs, and, when i do the process to deposit the thin film of TiO2 by the Dr. Blade method, i have cracking in the film. I have probe some suspensions, but the problem is not resolve. Do you known something to prevent that? Greetings and thanks again :)
you have'nt mentioned about the quantity of anything that you add as an ingredient.. I need this in detail
What is the composition of Iodite electrolyte solution and preparation of Iodite electrolyte solution
i have a question
i am doing my master's dissertation on DSSC and i wanna knw why to we need to heat the slide? if possible can we reduce the temperature and increase the time? cause i tried to heat my slide in an oven at 220 C and it cracked completely same observation when i tried to flame it?
Hello, I prepared TiO2 layer in a sligthly alternative way (spraying), but the dye doesn't seem to stick :/. Do you have any idea what could cause this?
Getting good output (approx. 250-300 mV), but the I-V curve (microamps vs. millivolts) is very linear while it should be generating a curve.
Kevin Upton did u ever figure this out
@@simonsays9998 did u ever figure this out
how do I know if material electricity iodide works or not
The titaniumdioxide layer fragmented after I added the dye. Does anybody have a solution?
you have to cook it longer at higher heat according to many other comments
has anyone tried this? If yes, can you please tell me WHY?
why carbon as electrode (counter) cz it should be conducting but carbon is not, then why??
it is not carbon......but graphite an allotrope of carbon.......a very good conductor
where is step one measurin voltage and current
I think you can see how to make it on Avasva . This is just an advice ;)
@cmditr I thought teaching comes with explanation. This like watching a mentalist
If you want to power your home
you have to learn to build your own solar panels
go to Google and search for:
"Top DIY Solar Panels Review"
Choose the first result (skip the Advertisement on top)
Indium Tin Oxide ITO
cmditr
cmditr where do you buy the ITO coated glass if any conduct number send to me plz
astro mohan they have it in adafruit 50mmx50mm for 6 bucks each
The efficiency of this demo cell is quite low. Three in series could not match the output from a single small silicon cell.
G24 Innovations makes a graetzel cell the claim has 12% efficiency.
Really enjoy it. Let's check Avasva plans also
I totally don't understand this video
hello which glass did you use???
is it ITO or FTO
waiting for reply
thankyou