As a chemist, here are a few thoughts: 1) Of course it is a bleaching process. 2) Sunbrithing probably works because the Chromophores are more susceptible to Photooxidation than the bulk plastic. 3) Hydration (Addition of Hydrogen) with H2O2 sounds like BS to me. 4) The electrolysis isn't likely to work in it's current form, because elemental Oxygen and Hydrogen aren't very reactive at Room Temperature (RT). The most likely bet is if the plastic part itself acts a an electrode (hard to implement due to conductivity) 5) As you said, the corrosion of the Anode is a well known problem in Electrolysis. The safest way to prevent this is to use Nobel Metals like Gold or Platinum at the Anode. Silver, Titanium, Lead or Carbon may also work. Lead (IV) oxide is often used for this in industry. Corrosion at the Anode is very dependent on the pH of the Electrolyte and Current density. The blackening of the Cathode is likely due to dissolved Anode matter being reduced at the Cathode. 6) Using Sodium Chloride as an Electrolyte is a bit dangerous, as it can lead to chlorine formation. This might work to bleach the plastics at the Anode though. 7) Hydrating the Plastic with Hydrogen is unlikely to succeed, this reaction is usually done in solution with Palladium on Carbon as a Catalyst. 8) The most amateur accessible method to hydrate the plastic surface could be using tin in hydrochloric acid. This will form SnH4 which might react with the Chromophores. Other reagents could be Diimide (made from Hydrazine and H2O2) as well as Sodium Borohydride and Lithium Aluminium Hydride. The later two are unlikely to react with the double bonds in the Chromophore (unless these double bonds are Michael acceptors), it could still have an effect on some functional groups that could improve (or worsen) the situation. 9) H2O2 decomposition can be catalyzed by adding Potassium Permanganate or Dichromate in very low concentrations. Copper sulfate could also work. These salts can leave a stain on the plastic though.

Hey Birt! So, I watched the whole thing before commenting. You do keep saying that there is no way to stop the oxidation process. But there is. You touched on it at 34:12, but I felt you should have elaborated on it. People often ask me if there is a way to prevent yellowing and I will say to remove the oxygen. Even covering something in plastic wrap or aluminum foil is helpful as it keeps out fresh oxygen. But a vacuum sealed bag probably works best, or possibly a bag filled with nitrogen, CO2, or some other inert gas. On interesting anecdote is that I have an Atari ST that has yellowed significantly around the power supply from heat. But there was a paper sticker on the plastic in that spot. Removing the sticker revealed no yellowing underneath. Since heat was the catalyst here (not light), clearly the sticker didn't prevent that area from becoming hot. So the only conclusion is it stopped fresh oxygen from contacting the plastic. I would also comment about Sodium Percarbonate. It does work very well for retr0brite. But, as you mentioned, it is very alkaline. I destroyed a Macintosh LC top cover using this stuff because it ate away the RF shield, which unfortunately cannot be removed from the plastic. But the plastic itself came out looking great. So as long as there are no metal parts, the Sodium Percabonate may even be a better choice as it is easier to store, I think.

Excellent info! Thanks for all the hard work.

Maybe it’s time for a Nile Red collab and explore the other options you mentioned? Thank you for the video!

Excellent work Jeff! I observed most of the effects you described 1:1 during the course of my own retrobrighting experiments over the years. Turns out I had only very vague ideas about the science behind it though. At least I stopped blaming the Bromine pretty early on after reading up on it. ;) Thanks for this video, hopefully it's going to help clear things up and the future is going to look a bit brighter... ;P

This is the most comprehensive explanation of and investigation into retrobrite that I've seen. TBH I've been reluctant to try retrobriting in the past, but I have a couple of machines where I'm not entirely happy with the patina and I'd prefer to have them look less yellowed. Many thanks for this video.

I would advise against using table salt as electrolyte. Electrolysis of saline solution can produce chlorine gas.

Great video Jeff! I can tell a huge amount of work went into this. So great that we now have a definitive source of real scientific data on this subject that we can point people toward - whether or not they'll listen is a different matter, of course...

I have found that retrobrighting can sometimes only be temporary. I still use it where I have no choice, but nowadays I try to buy non-yellowed items wherever possible. If it hasn't yellowed by now, chances are it won't happen at all. There is always the chance that the seller retrobrighted the item before selling it, but you can usually tell by the price and the condition whether they went to the trouble to make it presentable before selling it. One good thing about retrobright is that it has made people less afraid to buy yellowed items, and that has reduced the premium that can be charged for an unyellowed example.

I'm only a few minutes in but I love your explanation of light. It reminds me of how, when learning this in school (about the spectrum) I became hit by a new fact.....I can't see ANYTHING except for light. With the blue truck example you gave, I can't see a truck at all. I can only see light bouncing off an unseen object. The example my teacher gave was a chair and I recall being awestruck at the epiphany that I can't see a chair at all, only light bouncing off the chair. It's both obvious and amazing at the same time.

That’s the most useful video I’ve seen for months! Thanks for putting in all the work to sort out what retrobriting really does.

I knew Retr0brite was bleaching. I can also confirm that ABS turns yellow in the dark. Last year I did an Alarm System takeover and the old Alarm System's communicator was in a dark attic. That thing was so yellow, the case was fragile it was like poking your finger through a wet sheet of paper. The previous tech left his name and install date in the panel so it was around 11 years. I believe it got like that from the Humidity and Heat. Also ABS in it's "natural" state as in color is anywhere from a off white to a yellow color depending on the chemical mixture before bleaching, dyes and color additives are added.

Thank you for taking the time to do this badly needed work. A+ on this paper!

Holy Cow! AWESOME! Your work has saved me months of research. My pet peeve is when people make claims/assertions without any documentation is a waist of time. Your actual scientific approach: formulate hypothesis, identify possible causes for discrepancies, test - test - and test again, attempt to eliminate possible discrepancies, THEN formulate the outcome. Wow! I just found your channel but I'm a huge fan now. Keep up the good work!

Excellent video. Super informative. I appreciate all of the research that went into this -- well done. I have had very good success with full immersion Retrobriting using liquid H2O2 and a 1000W UV grow lamp. I also tested Sunbriting -- it has worked well, too. Great work, Jeff. 👍

Thanks for taking on this huge project and putting it out there.

Great research, Jeff! Thanks for making this video. I'll be passing it around for sure!

I did some research a few years ago about this and found very similar results to yours (but not as thorough) One of the things that should be elaborated on is the mechanism of the yellow/bleaching of these plastics. The initial yellowing isn't just caused by O2 in the air. It's caused by the natural breakdown process of O2 into an oxygen radicals and ozone (O3). The ozone does it's thing, usually just reacting with itself, but the oxygen radical almost immediately reacts with anything it bumps into. Most of the time it reacts with ozone, reforming O2, but this can also be the CH groups in plastics, turning them into ketone groups, which is one of the ways that plastics yellow (cause afterall, there's more conjugated bonds which act as chromophores). Heat and UV, like you said, increase this breakdown which is why it's inevitable. I know it all too well as a woodworker. The same problems happen there However, what I suspect, is that these oxygen radicals also act as a way to remove these ketone groups, forming ozone in the process (which is unstable) among other molecules. This process is generally an oxidizing one chemically speaking. Sun bleaching makes sense with this process. But the issue is that you need to start from the oxidized plastic before hand, otherwise you're doing the yellowing reaction mechanism. Hydrogen peroxide provides radicals that do the same thing as O2's breakdown. I think this is where the misguided suggestion of ozone generators came from. Those generators aren't great at making the radicals themselves. In addition, in my research, I found that someone successfully achieved de-yellowing with other bleaching agents. Chlorine gas is a bleaching agent (but not used as one), and it managed to de-yellow just as well as H2O2. This is despite it not making radicals, but instead it being a very strong oxidizer (the molecule that takes electrons). So a suggestion for future experiments is to try not only other bleaching agents (like household bleach), but even strong oxidizers (within the realm of safety) such as nitric acid and sulfuric acid. It is unlikely that methods using these oxidizers would be any more viable than just H2O2, but it would be more evidence of the true mechanisms of de-yellowing of plastic. Maybe Nile Red or Cody could take a look into something like this

When bleaching keys, note that the bigger ones -- the space bar almost always, but it can be others as well like a Big Ass Enter -- may be made of a different plastic than the rest. Typically ABS is used because it's light and sufficiently stiff for such a large key, while the other keys may be PLA, or POM, or something that's easier to make doubleshots with because they melt hotter. They all start the same color, and may or may not yellow similarly, but this explains the differing levels of bleaching required. I know Cherry, in particular, likes to mix POM for smaller keys with ABS for larger ones. Long before any yellowing happens, the ABS keys have their matte finish eroded away by repeated touching in just a year or two, while the POM keys may take the better part of a decade to get equally smoothed over.

Terrific work, teriffic science, and teriffic fun. Your work is greatly appreciated and reminds us what a treat it is to be alive.

By far the best video I've seen on this topic. Thank you for all your hard work.

Thanks for your great video, Britt! You don't know how many people swear to me that Retrobrite "fumes" causes cancer, that is the primary cause of brittleness, that is dangerous chemicals, etc. Love your scientific approach, did my own animation on my channel a few years ago but your extensive research blows mine away. I have retobrited more than i can remember. Thanks again and let's keep having fun learning new things!

Glad I discovered this video. You have cleared up a lot of misconceptions I've had about retrobrighting.

This is masters degree level of research. Well done. Thank you

Thanks for this. This is what youtube should before. Not just a guy showing the process. But someone learning and explaining for an amazing video.

Thank you so much for your time and feedback to community !

The most scienific version on KZbin I've seen so far! :) well done

Thanks for your work to perform all of these experiments so that we can make some conclusion of how retrobrighting actually works! I am not too knowledgeable on chemistry, but learned a lot and appreciate it.

Very informative. Thank you so much, for taking the time to make this video :)

This was such a quality informational video, and your voice is so calming. Thank you so much.

You say that the plastics you are trying to get back to original are ones that have been stored in the dark. I have been retrobriting my lego as they parts that have changed colour are ones that have been exposed to sunlight as by being near a window. Some sets I have bought have been burned on one side where they faced or were in a windowsill and the side facing the inside of the room were their original colours. So I have been using a 3% solution, warm water and outside on a hot day, and the container sealed with cling film to create a hothouse and have been having good results. On a really bright day the greys, whites and yellows can be bought back within a day. At max I would leave in for 36hours. After that there is some colour degradation.

Cool, thanks for these worthwhile efforts, Birt! I particularly like that you noted the potential limitations of experiments (e.g., that you didn't control/measure the room light). Always good to explicitly mention things people might want to control for when trying to repeat. I also liked your rationale for using just (low)heat indoors to control for uneven results. I think I'll use this method if ever I decide to try.

You can straight up destroy fabric with nothing but a bleaching agent. It weakens the fibers of the cloth and if you soak those socks long enough in a concentrated solution they'll just fall apart. No idea if it has a similar effect on plastic but it would be greatly reduced anyway considering the thickness of the substrate.

Hi Birt! If you ever revisit this experiment one way you can quantify the color change with the equipment you have on hand is to load the picture of the item up in gimp or photoshop and check the RGB or CSV values, recording those each time you take a sample.

Thank you very much for the video. I have wondered about the yellowing of plastics for years. I found this video through a support group for TRS Model 100 computers. I am a 71 year old retired Mechanical Engineer. My Counselor says I am a Researcher. Since a good Mechanical Engineer can do anything, and I am a Researcher, I was able to follow everything in your fantastic and extremely informative video. There are so many great takeaways. Question: How long did it take to make this videlo?

As somebody who went through a punk phase in college, it seems completely obvious that hair bleach, when applied to yellowed plastic, bleaches the plastic. I do think it probably does damage the surface layer of that plastic, rather than returning it to its original state, but it's probably a very thin layer (the same few microns that have yellowed). It might speed up the rate of wear from typing, but it's probably insignificant compared to just using the keyboard another year. And if it is for a museum or collector's piece, the aesthetics are probably worth it.

Thank you so much for this amazing video, as a restorer of machines mainly of old plastics and trying many methods or retro briting, most recently I have Hydrogen Peroxide liquid and 2 x 30w UV lamps to help me and the results have been so good so far. Here in the UK we have very limited clear sunny warm days and I’ve found the cling film and crime peroxide to be a bit hit and miss on causing scarring on the plastics. You video informed of of the science and the myths and felt more like a sped up University course and I truly thank you for taking the time and making this video, Thank You from England and thank you for the education aspect. Forever in Debt to you, Dorian.

Such a relief that you didn't come out with anything that went against what had already been shown to probably be true! Now we can actually know these things are true rather than just suspect it. Someone had told me about using an auto stirring heated flask setup along with hydrogen peroxide and TAED a couple of years ago and said how effective and controlled it was and this is the first time I've heard it being talked about since.

I thought this was the best video covering the actual science and facts regarding rejuvinating our precious computers... Top notch science, Birt.

Thank you for your great report! I am currently bleaching an old HP Laserjet. Part by part. I can make the following interesting observations: 1. the housing of the printer consists of different parts of ABS, which contain different degrees of flame retardants. From no flame retardants to some flame retardants (ABS-FR) to more flame retardants (ABS-FR30) It can be stated that the higher the flame retardant, the more yellow the parts. Originally all parts had the same colour. The parts without any flame retardant are largely in their original colour. The ABS-FR30 parts are very yellow. 2. at the beginning, the printer stood for 10 years in a room where it was exposed to sunlight on one side through a closed window. These parts facing the sun are more yellowed. 3. the printer was then left in a room without any sunlight for 10 years. Nevertheless, the yellowing has progressed, some parts that still looked good after the first 10 years were heavily yellowed after another 10 years in the dark. I think you have to consider UV radiation depending on its intensity. In low doses, it increases chemical processes such as yellowing. In this case, it acts as an amplifier of chemical processes. In high doses, on the other hand, it has a bleaching effect and counteracts yellowing. There are also reports that unopened cases in their original packaging (sealed airtight) did not yellow in the cellar, whereas the same product in opened packaging in the same cellar is heavily yellowed without sunlight. So oxygen does indeed play a role. Obviously, oxygen and UV radiation have a yellowing effect in low doses and a bleaching effect in high doses.

Historically Potassium Permanganate as a catalyst has been used to accelerate the decomposition of Hydrogen Peroxide. Perhaps a small amount would help with the liquid immersion method. A large amount would probably be counter productive as it would colour the liquid and might affect the plastic being retrobrighted.

Thank you for your dilligence in the literature review and all of your hard work to bust those myths! You did an excellent job of explaining this process in a way that was easy to understand and this information is incredibly valuable :) It's very refreshing to see someone approach this (or any) topic with the good old-fashioned scientific method.

Hey Birt, putting this to the test. I just put out a table full of Keyboards and Amiga case parts that are badly yellowed. I will give them a few days and report back. I LOVE the idea of a way to de-yellow plastics without any environmental impact whatsoever!

Excellent video. Changed my mind on a lot of things.

24:30 mark: "..try again if the electrode corrosion issue can be solved." Before Energizer/ Duracell alkaline batteries were in all the stores, they were carbon-Zinc construction, like the Ray-O-Vac "Heavy Duty" with a carbon rod electrode. The biggest of those rods I got came out of the No. 1209 "Lantern" flashlight 6Volt block. Those blocks seem to mostly be inside older camping gear in stores that sell donated items.

Bit late to the research results you presented here - this is incredible work! Thank you very much for sharing, I enjoyed every minute of your video! I came across the retro computing fascination (61 years old, ZX81 was my first computer, the ZX Spectrum really got me into 8-bit "computing" ;) recently; as Speccies are black, there is no reason to bright them - but I found three Atari's 1024 in a storage room of my research group - heavily yellowed. I am a chemist - and throughout all experiments, research papers, rationals, conclusions, and particular in your case, such nicely conducted experiments, I still struggle with the final molecular interpretation (and I am a bit lost): "Bleaching" is an oxidation process; in case of alkaline "bleach" ClO- + 2e "->" Cl-, and the electrons stem from what was oxidized. Now, my "problem" ;) is that yellowing apparently comes from an oxidation process as well. Why does an oxidative environment such as H2O2, which is a strong oxidizer, not lead to even more yellowing? To be honest, I suspect there is something to the effect of radical trapping into "stable" molecules involved? Radical trapping by uptake of electrons and of course chemical rearrangement (otherwise the result would be an anion) is in essence a reduction reaction caused by the radical nature of the agents - not their oxidizing potential. But I may be totally wrong - I am just starting out with all this - and I am speculating on advertising a master’s thesis project on de-yellowing ... Thanks again, and all the best, Thorsten

What a wonderful, in-depth video. After looking around at all the myth regarding retrobrighting I couldn't get a handle on how it was supposed to be working. Your video and research has made the process very clear. Thanks for all your effort and true scientific analysis. Now all I have to decide is, do I really want my yellowed plastics white again?

I recommend for small and medium size things to use a vacuum sealer that does liquids, pour the peroxide in a vacum seal bag over to the top of the item and vacuum seal carefully in the sink. Then just use a sous vide heater to heat regular water with the vacuum sealed bag inside. This will conserve peroxide and heat evenly without exposing the heater to the peroxide.

My hypothesis: Epoxidation followed by Hydrolisis. Water acting as an acid here. It "changes" the conjugated system of the chromophore. "more double bonds => more absorption => colorshift to yellow", a bit simplified... I suggest you use Sodium sulfate as an electrolyte. Should be safe. That's all i can add, it's been years since Uni or working in the field of chemistry. Nice work, thanks!

One word regarding the content of this video, "Exceptional".

What doesn't make sense is that I had stuff in storage for nearly 10 years in complete darkness and cold temperatures, and my SNES, the SNES mouse and a Ghostbusters car all turned yellow.

What a great, in-depth exploration of the various approaches (including some novel ones). Living in the Sacramento valley, our summers are very hot and very dry. Humidity is ~30% for about 6 months straight typically. The drought has made it worse. I leverage this, and most work-from-home opportunities, to sun-soak some of my Amiga collection previously brightened (when they need a booster). It seems to keep them in a healthy aesthetic. One thing I've started doing the last year is focused on key caps. Instead of removing them, I'll brush on a 1:2 ratio of liquid oxiclean/water in situ. The amount is light and the hot. dry air minimizes corrosion opportunities. I'll mist, or brush on fresh water periodically (~every 30min) and, as long as I am patient, I can coax the keys back to youth. With brown keys, like the breadbin, I'll carefully apply the oxi solution with a paint brush to the concave area of each key-again, refreshing with vaporized water periodically. This often leaves no perceivable impact to the key's brown color as long as I am vigilant about treating it and the sun is co-operating. Unfortunately, the smoke from the last month or so has limited options on whitening. Thanks again for the great video and interesting research, Jeff.

Thanks for this very informative video, debunking the bromine nonsense and showing what retr0briting does to the plastic. In the LEGO community the yellowing of white and grey ABS pieces due to UV light is considered a pretty big problem without a permanent fix and many report that even sets kept in a dark basement undergone yellowing. I have tried the 12% hydrogen peroxide + UV light activator method many times but sadly the "bleaching" is only superficial and temporary and after a few month the parts will be yellowed again even if kept in the dark. What I did not test is storing the treated parts in an airtight container + refrigerator and check if the oxidation is slowed. I also noticed on my white NZXT Phantom computer case, that the rear top area where the most heat gets accumulated caused very strong yellowing so UV light is not even needed to cause damage. Wish there was a permanent solution to reverse the yellowing because my expensive LEGO Star Wars sets look horrible and are now pretty worthless.

Great video Jeff, thanks for putting all that effort into it.

Hey Birt, you rock! 🤟 A lot of effort went into this 👍

Very good work! Lots of good info, and very good explanations on the processes

Water treatment engineer here! Retrobrite is just an advanced oxidation process. In these types of processes, you want to create hydroxyl radicals, which are tremendously potent oxidants. You can achieve this by combining hydrogen peroxide with UV light, as well as with ozone, titanium oxide, and iron in acid medium. This technology is awesome for destroying recalcitrant organic contaminants.

Thank you for enlightening us on what actually happens. And for a minute with Ozark Science.

Very interesting! I was looking forward to a scientific explanation for the effect of hydrogen peroxide for a long time now. Retrobrighting is great but the next step would be to figure out how to protect the ABS plastics from the oxygen corrosion. I wonder if a clear anti-corrosion spray would work well on plastics as it does on metals. Together with UV protection that would shield the plastic from harm and stop (re-)yellowing.

Hey, something I'm having trouble understanding, after watching the video (and I'm hoping you can explain) is: it sounds like heat and UV speed up the yellowing process caused by oxygen... But also the UV from the sun can be used to bleach? So the sun both yellows and bleaches? How do you know which one will happen. If I leave my C64 on a desk facing the window will it get more bleached or more yellowed?

Everything that i've retrobrited turned yellow again at quite an accelerated rate, within 2 years.. and the items were not in any sunny or hot location, and away from direct light sources. I've considered if sealing the surface with an automotive grade matte clear coat with UV inhibitors might reduce the return of yellowing..

Fantastic video Jeff, really enjoyed it. The research and detail was really important. I have always been wary to put my old machines through this sort of process - to me, the yellowing is part of what makes the machine old/retro and I think it changes the character of them. But it's clear by being careful and controlling the various parameters you can generate exceptionally good results.

Interesting video for one who seeks the answer of what "Retrobrite" really is. Nonetheless, it's a process that works. It may or may not return to a yellowish state again in the future. But the process could be remade. I first tried it with hair bleach in a bottle and a UV-light. The European PAL cartridge's back plate has the bad habit of turning yellow. Almost every game I've got so far has more or less yellowish/brown tones on the back. The problem however is that they mostly turn more light grey than the front plate. It sure look better but nonetheless a difference in the grey tone. The process usually takes about 8 hours. Yesterday I tried it in the sun and the process was rapidly faster. In other words, the UV-light isn't necessary. I also tried the SNES mouse for Mario Paint and the results on that one was perfect. It looks like a new and unused product at this point. That also tells me that the plastic are a bit different in the products that where used to make SNES products. It can clearly be seen on the yellowed consoles. Some parts are completely yellowed and others are perfectly fine. The American console is a perfect example of that. I have a NTSC-U console on the way that truly needs a facelift in every way. It should arrive in two days. Retrobrite is not just a good way to restore old consoles to it's original state. It's a satisfying process to act out to preserve our childhoods in a good fashion.

As a teacher, I gotta say I love this video! Great job on this one!

Hey Brit! I'm curious if you've done any experimenting with the "vapor" method of retr0briting which is gaining popularity. This is similar to the immersion method, but involves placing a small amount of high concentration hydrogen peroxide in a sealed container and exposing it to heat (usually the sun) to induce evaporation. The parts are not submerged or otherwise directly exposed to the hydrogen peroxide itself, only the resulting vapor. Claims are that this uses much less peroxide and results in more even exposure, though may be a bit slower than other methods.

Phew. Not many videos contain this much information. It's a lot to absorb. It does look and sound like a very thoroughly researched subject Jeff. Very well done and thank you for all the work. The scientific explanation of any subject is often a middle road between the more extreme explanations that are based on opinions. Between some of the other things claimed about retro brighting, this one's very valuable.

I tried retrobrighting twice - one success, one blotchy mess. The interesting thing is I was using the "wrong" chemical. I used Draino/Sodium Hydroxide. That's another case for the bleaching theory.

I came here looking for a more scientific approach, and I am very impressed and thankful for the time you spent on this. It's also clear now that the different techniques may be selected as much based upon the part being bleached as it is about the speed of the results. Thinking of my collection, I can see that some techniques may be needed for different components. My IBM PC340GL case has a metal shield permanently attached to it which is not going to do well submerged in peroxide, the creme/film technique risks the "marble" effect, so maybe that's just a "sunbrite" with regular rotation and just accept it will take more time. The drive bay covers and front plastics can sit in peroxide on a seed mat indoors and do just fine.

This is a really important piece of work. Thank you.

Excellent work mate. This video was enough for me to decide retrobriting my SNES. Cheers, mate.

Thank you so much for this thorough research project, I'm looking to retrobright some of my own electronics, and this video provided a lot of great info and a fantastic method for me.

Excellent work Jeff! In your next video, can you keep the text cards on screen longer? Some of the more text rich slides were very difficult to read when they were on screen for only 1-2s.

Crazy to know that some scientist out there totally unrelated to retro PC and gaming had already done research on this yellowing of plastics. Of course they used scientific terms like "polymers" and "bromine" that most gamers would be unfamiliar with.

Great video! Thanks for the hard work!

5:40 Very good analogy! Cooking and chemistry aren’t that different. Alloys of metals are the same way; a few small ingredients change everything.

Commercial electrolysis systems use platinum-plated electrodes to reduce the corrosion problem you noticed; they also use grid-shaped electrodes that have a large surface area but also holes to allow bubbles to pass through. All you need is a convenient platinum mine and you're good to go.

I love the fundamental work you do for the community. Hooray for science (Ozark et al), Jeff, and bleachy-clean keys & cases.

Hey Birt, I hope you see this comment, as I'm wondering about an aspect of your setup. I'm currently prepping to recreate your 12% H2O2 heat mat setup to do some retrobrighting of my own. I've got a similar setup; same size mat, roughly same size container, the only difference being that I'm using a 30 watt heat mat that has a maximum temperature setting of 45 degrees Celsius. I was wondering how close I could get to the 40 degrees, so I'm testing with tapwater. I've got a polystyrene base with a small sheet of aluminium insulation foil on top to reflect the heat back into the container. The container I've got covered with thick blankets to provide a little bit of insulation as well (not ideal, I know). I've got the heat mat set to 45 degrees, and put a temperature sensor in the water hooked up to a multimeter. After roughly 12 hours the water only gets up to 30-31 degrees with an ambient temperature of roughly 21 degrees. I double checked and the multimeter is accurate. So, for my question to you: I've gone over your video multiple times, as well as the data you've uploaded to OneDrive, but I cannot find if in your tests, by 'temperature', you're referring to the temperature you've got set on the heat mat, or if you've also got a temperature sensor in the hydrogen peroxide. Thanks in advance for answering! It's a really great and insightful video, and an awesome contribution to scientific research on this topic.

Great! This answered a lot of my questions about this new (for me) technique!

Great video. Thorough explanation and love the scientific approach. Thank you so much!

I loved this video, Jeff. I'm curious if the 7% H2O2 I see on Amazon for water systems would work the same as the 6% solution. It doesn't have any other ingredients beyond the peroxide and water, so I don't see why there would be an issue but I would like your thoughts on it.

What doesn't make sense to me: If the process that causes the yellowing is oxidation and the process by which the bleach works is also oxidation and if that bleaching process is what works on the plastic parts, then we are not reversing the yellowing process. We are oxidizing already oxidized material. Oxidation isn't like subtraction, where to negatives make a positive. The reverse process of oxidazation is reduction. So: what is indeed happening?

Thanks. Great video, not just the usual rumour and conjecture.

I thought I had a good grasp of what was going on, but now I am sure of it and I learned a whole lot more than that along the way, thank you!

What a thorough, exacting treatment of the subject. Thank you for your exhaustive work. I'm looking to try this out myself, following your preference of 12% liquid hydrogen peroxide submersion and a heat pad only. Do you have any guidance on about how long the initial submersion should be for? If you said that in the video already, I apologize for missing it. Thank you

Hey, thanks a lot for the insightful video and the research done! Clears a lot of misconceptions. Time allowing, I'll read the papers and maybe do my own experiments. Getting back to the field I got a degree in surely is refreshing :).

Bookmarked. I expect this video will get a LOT of mileage in responding to comments. :)

The color of the carrotine molecule shown is not due to its shape but instead it's conjugated pi bond system. The center section consisying of a line of double bonded carbon atoms is special. Thrre are two kindsbof bonds, sigma bonds and pi bonds. The sigma bonds are localized between the carbon atoms. The second bond, the pi bond, is not. The electrons takig part in the pi bonds can move throughout the entire conjugated pi system. This is a common theme in organic dyes. Six membered aromatic rings can also take part in these conjugated systems. Many organic systems owe thtir golor to these sorts of conjugated bonds. Inorganic compounds typically owe their color to ansorbtion of light by the outer electrons. Examples of these are colored forks of oxidized metal ins in solution. Som compubds have distinctive colors in their unoxidized states as well. For example gold and copper. Bromine and iodine also have distinctive colors in their ground state. Iodine is purple and bromine is a redish brown. Unlike metal atoms, which oxidize to a positivly charged state by losing an electron, bromine will reduce to a negativly charged state or can take part in covalent bonding. In the absense of other factors, solutions if negativly chatged bromine ions, or compounds containig covalently bonded bromine are colorless. However, bromine solutions are well known to turn yellow over time. This is caused by the bronine losing an electron, and going from its Br-1 reduced form to the +0 form which consists of 2 Br+0 species covalently bonded. This is accelerated by exposure to oxygen and light. Another reaction that is common is that a photon of light os absorbed by the carbon halogen bond in an organohalide. The halogen is removed and grabs the hydrogen from tfe neighboring carbon, leaving a double bond. This is the opposite of such an acid adding across a double bond and creating an organohalide. Depending on the encotonment, hydrobromic acid can also further go on to create molecular bromine (consisting of 2 bromine atoms covalently bonded). The double bonds which can take part in conjugated pi bond systems should neighboring atoms also have such bonds can easily create absorbtion bands in the plastic that could cause yellowing. Its also possible that residual Br2 could build up and cause yellowing. Hydrogen peroxide and light creates free radical spevies that are highly reactive. They are commonly used to intiate various reactions. For example, peroxides or light, or both are commonly used to intiate polymerization rezctions. They are also used to intitate ractions of halogens like bromine. Free radical reactions involving peroxide, light and halogens are commonly used to add halogens to species with double bonds. Doing so to one that takes part in a conjugated pi system would alter its absorbtion of light. So bromine taking part in both the yellowing and bleaching of plastics is not at all implausible. There are other reactions that free radicals can cause as well that might remove and create yellowing as well. The fact (as is well known) that plastics sitting in sunlight yellow much faster than NOS plastics sitting in a box, but even plastics stored in a dark place yellow, and that its also accelerated by ozone, suggests that oxygen AND light are involved. Bromine plausibly yellows plastics over time by multiple mechanisms. But just because non-brominated plastics also yellow does not suggest thd bromine plays no role. Different plastics may yellow or whiten by slightly different, or vastly different mechanisms. Its also the case that some substrates are resitant to yellowing, and others do not brighten with peroxode and light.

I've often though that both the yellowing and retrobriting had more to do with the temperature and not so much the UV. I have old equipment that has been kept in a dark loft for 30 years and it has yellowed extensively, but it gets hot up there in summer. Not a good place to keep electronics, before anyone comments! However I am sure I have heard Jan Beta say that he thinks its more to do with exposing the plastics to peroxide and warmth. While UV undoubtedly damages plastics, most computers are indoors, and ordinary window glass is an effective UVC filter. So its good to see this analysis and results, and I will be thinking about what to do (if at all) with my yellowed computers - when the yellowing is not too bad I think it adds "patina" :D

Wow you can see a huge amount of effort went in to this great job! Nice to something to point people too when talking about it.

Hey Birt! Thanks for the thorough and rigorous investigation into the world of Retr0brite. It obviously took a lot of time, energy and thought. A couple of questions for you: (1) If I understood correctly, you concluded that a 6 to 12% H2O2 concentration in water was best. I wondered in the time that has passed since you produced the video, have you had further experiences that would lead to narrowing that range? (2) Since you have demonstrated that heat and H2O2 (not UV light) are the keys to de-yellowing, I was planning to put the yellowed objects in a container with a black cover, in the sun. Does this sound reasonable to you. BTW, the "objects" in my case are Hunter fan blades.

This is the first video that ever asked me to watch the video before i comment. that's a real man

I kept an open mind but am prematurely banging out a comment on my keyboard just to say this is great content and to keep up the awesome work. Also I miss the Ozark mountains a lot....

Hi Jeff. I'm curious if vapor would work also. This, if it works, would reduce the amount of HP to be used. For example a big pan with a lid put on the (induction) stove on the lowest setting. Suspending the knob above the liquid, so the knob isn't submerged in the HP, except for some drops formed on a horizontal surface of the knob. The heat would make the HP evaporate. What are your thoughts ? Thanks for the video.

I think that it has been demonstrated that heat without light is a good enough 'energy source' for the Hydrogen Peroxide to do its thing. UV light is not necessarily required. A case brushed with Peroxide Cream in a zip lock bag in an oven at 50 degrees that is brushed periodically (approximately every 20 minutes), with the reapplication of cream as required to stop it drying out or crystallising, has been demonstrated to work well. Any thoughts on this?

Thanks for this video and the time you took to help me understand this.

Most days I'm replacing broken electrical components simply because they didn't bother to make them UV stabilised plastics. Some can be darn right dangerous due to having exposed mains wiring.

The result of this is good news for people in cold and gloomy places: just use a heated tub of H2O2 indoors, no sunny summer weather required. I may have to give it a whirl sometime, except that some of the mid-90s Macs I have are made of Spindler-era plastic and tend to shatter if an attempt at disassembly is made. Or sometimes even just looking at them funny will cause something to snap off. If only there was a cure for brittle plastic in addition to removing the yellow.

Great video - I now know enough to do my first retrobrighting

I enjoyed the video. Well laid out and explained. Food for thought.