> fluorine starts to dissociate into monoatomic radicals, thereby losing its gentle and forgiving nature. But that's how you get it to react with oxygen to make a product that's worse in pretty much every way.
That kind of prose is why I love reading this chap's stuff.
> Hangzhou Sage Chemical Company. They offer it in 100g, 500g, and 1 kilo amounts, which is interesting, because I don't think a kilo of dioxygen difluoride has ever existed. Someone should call them on this - ask for the free shipping, and if they object, tell them Amazon offers it on this item. Serves 'em right. Morons.
Some chemical suppliers seem to have autogenerated items, some/many are non-sense and I guess they just hope that you find something and they can make it? I found the example below a while ago but they have since removed it.
No, its not impossible. You can make it in the lab without too much difficulty if you have liquid nitrogen. Just not sold like this and you can't really contain it in a practical vessel as the pressure at room temperature would be too extreme, you store liquids or compressed gases.
Off topic, but I Googled "argon powder" and the AI overview thing hallucinated that the term means metal powders used for 3D printing, stored under argon to prevent oxidation. There are no actual results using the term in that sense, as far as I can tell.
Google search should not be returning an incorrect hallucination that sounds plausible ahead of the actual search results. It's so confidently wrong. Google is SO BAD NOW at searching for specific expressions.
At seven hundred freaking degrees, fluorine starts to dissociate into monoatomic radicals, thereby losing its gentle and forgiving nature.
If the paper weren't laid out in complete grammatical sentences and published in JACS, you'd swear it was the work of a violent lunatic.
One of the fun parts of chemistry is that most chemicals that ordinarily exist are quite far from having the most extreme possible properties that you can ascribe to a chemical. It doesn’t really matter what the property is. This is almost by definition, as “extreme properties” is roughly a synonym for “extremely unfavorable thermodynamics”.
Nonetheless, chemists are obsessed with these because in theory you can engineer chemicals with completely implausible, or at the very least counter-intuitive, properties in a lab if you can figure out how to do it. It is the equivalent of extreme performance-engineering geekery in software. You do it because you can, not necessarily because you have a use case.
Topics like “theoretical limits of high explosive power” [0] and a lot of other things that will put you on a government list are something chemists definitely geek out on.
> Just to get the ball rolling, here’s a few of the more unusual things chlorine trifluoride is known to set fire to on contact: glass, sand, asbestos, rust, concrete, people, pyrex, cloth, and the dreams of children…
So, might be "inspiration". I suspect "Melissa" did not "find out today" - chlorine trifluoride isn't exactly the stuff you discuss at your average dinner table.
You need a whole bunch of expertise to write about it. Gizmodo does not usually have this expertise, but its writers do usually recognize snappy writing that might go viral.
Ah, I miss the days when this sort of soft plagiarism required a minimal level of effort and even some genuine research. It might even rise to the level of "acceptable" if she cited her sources more thoroughly. Sadly, as presented, her choice of both anecdotes and example materials makes it pretty clear that the author is mostly just rearranging Lowe's and Clark's words.
This is a quote from "Ignition!" The particular quoted passage from that book is one of the highlights of the unique ironic tone the author used to describe real and dangerous chemical research.
The book firmly establishes its tone with the first two pictures at the front: a successful rocket engine test and the remaining rubble of the same test stand after a failed test.
I suppose Derek's writing style is similar enough that it's easy to accidentally credit him for that line.
I have to wonder whether Clark's influence is a significant contributor to his writing style. It would be fun to ask him. They could, of course, have come to it independently.
The Rocketdyne Tripropellant rocket had great specific impulse, one of the best. But-- there are many reasons it never caught on: one of the byproducts was FOOF, along with other things like hydrofluoric acid.
If you want to actually get momentum out of a rocket, the reaction products are going to touch the combustion chamber walls and the nozzle. While film cooling can help with minimizing heat transfer from the hot stuff, I doubt it’s enough to keep this stuff from eating your engine from the inside.
They actually did build a test article and ran the engine a few times, enough to gather the data but it indeed ate the engine, and the concrete and the rocks and coated it all with explosive powder.
They did imagine coating the proposed launch complex with quartz but it quickly became obvious it was going to be way too expensive to actually build.
Yes, many. It's widely used on solid rocket motors, but it's considered a bad idea on liquid fuels because regenerative cooling is usually lighter, more efficient and easier to design and build. It's hard to get a rocket nozzle to ablate in such an even and consistent way that you wouldn't have to provide much larger safety margins than you'd really want to in a rocket.
Arguably, the solid rocket motor is in this vein. While I've never seen a design that consumes the outer shell, the inner material is designed to burn as completely as possible, and the chemistry and physical composition is even designed to cause the burn to happen in a proper combustion-chamber shape.
I think there's some stuff in a book called Ignition about experiments using Fluorine as an oxidizer in rocket engines to get a little better specific impulse than oxygen. Only problem is that the exhaust is hydrofluoric acid at thousands of degrees. Yipe.
From memory, that book went in at least four different directions with fluorine compounds. Parts are about increasing specific impulse; parts are about increasing density impulse (fluorine's very dense); parts are about formulating oxidizers hypergolic with kerosene or with hydrogen; parts are about formulating oxidizers for deep space probes, with a melting/boiling point range matched to that thermal environment.
O3F2 is the one that if you add it to liquid oxygen, it makes hydrogen/oxygen combustion hypergolic.
There's also adding a bit of Flourine to one of the Fuming Nitric Acids to make it easier to handle, because of the flouridation of the surface of the tanks.
Ignition has that lovely paragraph about some fluorine based fuel leaking out of the truck that was transporting it* and going through the road surface and then through the half a meter of concrete and stone under the asphalt, alien style.
* the only way to move that fuel was in a refrigerated cistern... at a temp so low that the steel it was made of became brittle and cracked.
I think it's quoted in one of Derek Lowe's articles about fluorine compounds too.
Retcon: the Xenomorphs were a form of life based around fluorine chemistry, which provides a physically plausible mechanism for how their blood eats through anything.
Of course that breaks the idea of them incubating in humans, since their biochemistry would react explosively with ours, but that never made sense anyway.
that book is really good and has some interesting hidden treasures, like a couple of sentences about adding silicon oil to the fuel mixture to create a self-ablating film on the combustion chamber. I think some amateur bi-prop engine guys use that in their fuel setups. It's funny how the book ends after all that research and exotic chemicals with JP-1 and liquid O2 are still pretty much the best combination.
I remember this article and I'm laughing before I even click the link. What a delightful read. Even more delightful I've never encountered this molecule.
Not the best example. Hydrogen peroxide is actually rather nasty when highly pure. I mean, it's got nothing on FOOF, not many things do, but it's still in a class where it needs to be handled with care and shouldn't be handed to non-professionals. Don't be fooled by the fact it's sold in grocery stores at low concentrations.
Pure hydrogen peroxide will do a lot worse than burn on contact with an open sore, unless you mean "set your sore on fire" (though it's more likely to detonate, or spontaneously dissociate into steam and pure oxygen).
Usual solutions for disinfection are 3~5%, at 35% h2o2 will bleach skin, and bite through it.
Read up on the Me-163 if you want to see the craziness that's involved with using high-purity H2O2 as an oxidizer. With a hydrazine/methanol mix fuel to boot.
30% is non-chlorine pool shock, and readily available where I am (VT). As it happens, it's also one of the parts of two part wood bleach. The other part is a solution of NaOH (lye, available in solid form for drain opener). Works great, best used while wearing gloves and a face shield.
Bleach, when people refer to the general product you can buy in the grocery store called "bleach", is sodium hypochlorite, not hydrogen peroxide.
You can call hydrogen peroxide bleach, or a bleaching agent, but if you ask your significant other for "bleach" you're not going to get hydrogen peroxide.
Speak for yourself, we have/had a bottle of it lying around. Used for bleaching hair and as a cleaning agent. It's not Clorox, but actually says hydrogen peroxide (low dosage though).
A. G. Streng would probably have been forgotten about like so many if he hadn't been such a risk taking experimental chemist. Now someone's probably going to make a movie or comic book about him.
The article is good stuff. It's a shame he's now having to be writing Crisis, Part IX etc about the Trump admin trying to trash things. (https://news.ycombinator.com/item?id=43418192)
> fluorine starts to dissociate into monoatomic radicals, thereby losing its gentle and forgiving nature. But that's how you get it to react with oxygen to make a product that's worse in pretty much every way.
That kind of prose is why I love reading this chap's stuff.
There's something reminiscent of Terry Pratchett's style to Derek's "Things I Won't Work With" series.
This makes the rounds here every so oft, and I always read it again, seconded ...
> Hangzhou Sage Chemical Company. They offer it in 100g, 500g, and 1 kilo amounts, which is interesting, because I don't think a kilo of dioxygen difluoride has ever existed. Someone should call them on this - ask for the free shipping, and if they object, tell them Amazon offers it on this item. Serves 'em right. Morons.
Gold
Some chemical suppliers seem to have autogenerated items, some/many are non-sense and I guess they just hope that you find something and they can make it? I found the example below a while ago but they have since removed it.
https://www.nanochemazone.com/product/argon-powder/
The argon powder is still there. Great for Apr01. https://www.nanochemazone.com/argon-powder/ -- https://web.archive.org/web/20250331192328/https://www.nanoc...
Is argon powder actually impossible? Of course it couldn't exist as pictured but below 80K does anything prohibit it?
No, its not impossible. You can make it in the lab without too much difficulty if you have liquid nitrogen. Just not sold like this and you can't really contain it in a practical vessel as the pressure at room temperature would be too extreme, you store liquids or compressed gases.
Off topic, but I Googled "argon powder" and the AI overview thing hallucinated that the term means metal powders used for 3D printing, stored under argon to prevent oxidation. There are no actual results using the term in that sense, as far as I can tell.
Google search should not be returning an incorrect hallucination that sounds plausible ahead of the actual search results. It's so confidently wrong. Google is SO BAD NOW at searching for specific expressions.
Someone finding themselves obliged to make and deliver a kilo of this stuff would be a strong opening for a shounen manga.
More likely an isekai story, for variety over the usual truck.
Absolute classic of the genera
Previously:
https://hn.algolia.com/?q=dioxygen%20difluoride
And others in the series:
https://hn.algolia.com/?q=things%20won%27t%20work
https://www.science.org/topic/blog-category/things-i-wont-wo...
High overlap with: (rocket fuels)
https://hn.algolia.com/?q=ignition%20informal
I hated high school chemistry but both this series and that book are among my favorite scientific reads.
Ignition! is highly recommended.
PDF: https://news.ycombinator.com/item?id=43529378
One of the fun parts of chemistry is that most chemicals that ordinarily exist are quite far from having the most extreme possible properties that you can ascribe to a chemical. It doesn’t really matter what the property is. This is almost by definition, as “extreme properties” is roughly a synonym for “extremely unfavorable thermodynamics”.
Nonetheless, chemists are obsessed with these because in theory you can engineer chemicals with completely implausible, or at the very least counter-intuitive, properties in a lab if you can figure out how to do it. It is the equivalent of extreme performance-engineering geekery in software. You do it because you can, not necessarily because you have a use case.
Topics like “theoretical limits of high explosive power” [0] and a lot of other things that will put you on a government list are something chemists definitely geek out on.
[0] https://en.wikipedia.org/wiki/Octanitrocubane
Not a Chemist but reminded me about this article: https://gizmodo.com/chlorine-trifluoride-the-chemical-that-s...
> Just to get the ball rolling, here’s a few of the more unusual things chlorine trifluoride is known to set fire to on contact: glass, sand, asbestos, rust, concrete, people, pyrex, cloth, and the dreams of children…
He wrote that one too, heh: https://www.science.org/content/blog-post/sand-won-t-save-yo...
It’s linked in the article
That's a different article. The Gizmodo article has a byline of "Melissa" and apparently is originally from TodayIFoundOut.com.
So, might be "inspiration". I suspect "Melissa" did not "find out today" - chlorine trifluoride isn't exactly the stuff you discuss at your average dinner table.
You need a whole bunch of expertise to write about it. Gizmodo does not usually have this expertise, but its writers do usually recognize snappy writing that might go viral.
Yeah, I suspect “Melissa” fed Lowe’s article to an LLM to get a quick article that’s sure to get views.
In 2015? 2 years before "Attention Is All You Need"?
Ah, I miss the days when this sort of soft plagiarism required a minimal level of effort and even some genuine research. It might even rise to the level of "acceptable" if she cited her sources more thoroughly. Sadly, as presented, her choice of both anecdotes and example materials makes it pretty clear that the author is mostly just rearranging Lowe's and Clark's words.
Good point! I’ll be more careful before quick posting.
Derek Lowe also did chlorine trifluoride: https://www.science.org/content/blog-post/sand-won-t-save-yo....
"It is also hypergolic with such things as cloth, wood, and test engineers"
This is a quote from "Ignition!" The particular quoted passage from that book is one of the highlights of the unique ironic tone the author used to describe real and dangerous chemical research.
The book firmly establishes its tone with the first two pictures at the front: a successful rocket engine test and the remaining rubble of the same test stand after a failed test.
I suppose Derek's writing style is similar enough that it's easy to accidentally credit him for that line.
I have to wonder whether Clark's influence is a significant contributor to his writing style. It would be fun to ask him. They could, of course, have come to it independently.
Knowing that rust can burn should make the joy of a few Linux maintainers.
Makes me wonder if it could burn a fire elemental. :)
They seem to model any chemical damage as "acid" and fire elementals aren't immune to acid so I would be inclined to say it would.
The Rocketdyne Tripropellant rocket had great specific impulse, one of the best. But-- there are many reasons it never caught on: one of the byproducts was FOOF, along with other things like hydrofluoric acid.
The line between serious proposals and shitposting is thin.
https://ntrs.nasa.gov/citations/19700022572 https://x.com/ToughSf/status/1769958999279927787
Hmm, maybe it was part of NAIL SPIKE? https://reactormag.com/a-tall-tail/
SO happy to finally see this get mentioned in one of the yearly FOOF threads on this site <3
The 50s and 60s were a wild time.
Sounds OK in vacuum...
If you want to actually get momentum out of a rocket, the reaction products are going to touch the combustion chamber walls and the nozzle. While film cooling can help with minimizing heat transfer from the hot stuff, I doubt it’s enough to keep this stuff from eating your engine from the inside.
Yeah, that was one of the downsides.
They actually did build a test article and ran the engine a few times, enough to gather the data but it indeed ate the engine, and the concrete and the rocks and coated it all with explosive powder.
They did imagine coating the proposed launch complex with quartz but it quickly became obvious it was going to be way too expensive to actually build.
"These modern SpaceX kids and their fancy reusables. Back in my day, when we went to space, we used the whole engine!"
Something like this?
https://www.reddit.com/r/aviation/comments/vpu3fv/lockheed_s...
That’s what engine-rich exhaust is for.
Hmm, I wonder if anyone has tried to use ablative coatings in a rocket engine.
Yes, many. It's widely used on solid rocket motors, but it's considered a bad idea on liquid fuels because regenerative cooling is usually lighter, more efficient and easier to design and build. It's hard to get a rocket nozzle to ablate in such an even and consistent way that you wouldn't have to provide much larger safety margins than you'd really want to in a rocket.
Thanks!
Arguably, the solid rocket motor is in this vein. While I've never seen a design that consumes the outer shell, the inner material is designed to burn as completely as possible, and the chemistry and physical composition is even designed to cause the burn to happen in a proper combustion-chamber shape.
Yeah, good point!
https://en.wikipedia.org/wiki/Executor_(rocket_engine)
Thanks, interesting!
This guy's writing style makes him a worldwide treasure, and probably inspired a few young chemists.
I'll always read and re-read his blog posts when they are posted here.
I think there's some stuff in a book called Ignition about experiments using Fluorine as an oxidizer in rocket engines to get a little better specific impulse than oxygen. Only problem is that the exhaust is hydrofluoric acid at thousands of degrees. Yipe.
From memory, that book went in at least four different directions with fluorine compounds. Parts are about increasing specific impulse; parts are about increasing density impulse (fluorine's very dense); parts are about formulating oxidizers hypergolic with kerosene or with hydrogen; parts are about formulating oxidizers for deep space probes, with a melting/boiling point range matched to that thermal environment.
O3F2 is the one that if you add it to liquid oxygen, it makes hydrogen/oxygen combustion hypergolic.
Direct link: (.pdf) https://library.sciencemadness.org/library/books/ignition.pd...
There's also adding a bit of Flourine to one of the Fuming Nitric Acids to make it easier to handle, because of the flouridation of the surface of the tanks.
> O3F2 is the one that if you add it to liquid oxygen, it makes hydrogen/oxygen combustion hypergolic.
O3F2 sounds like it'd be hypergolic with engineers. Nope.
> O3F2 sounds like it'd be hypergolic with engineers. Nope.
Engineers. Asbestos. Sand.
Can confirm 'Nope'.
Its probably hypergolic even with Nope. ;-)
Ignition has that lovely paragraph about some fluorine based fuel leaking out of the truck that was transporting it* and going through the road surface and then through the half a meter of concrete and stone under the asphalt, alien style.
* the only way to move that fuel was in a refrigerated cistern... at a temp so low that the steel it was made of became brittle and cracked.
I think it's quoted in one of Derek Lowe's articles about fluorine compounds too.
https://www.science.org/content/blog-post/sand-won-t-save-yo...
Retcon: the Xenomorphs were a form of life based around fluorine chemistry, which provides a physically plausible mechanism for how their blood eats through anything.
Of course that breaks the idea of them incubating in humans, since their biochemistry would react explosively with ours, but that never made sense anyway.
Some sort of out-of-this-world placenta there.
> a book called Ignition
that book is really good and has some interesting hidden treasures, like a couple of sentences about adding silicon oil to the fuel mixture to create a self-ablating film on the combustion chamber. I think some amateur bi-prop engine guys use that in their fuel setups. It's funny how the book ends after all that research and exotic chemicals with JP-1 and liquid O2 are still pretty much the best combination.
And the bit about using dimethyl mercury as a monopropellant.
Obligatory dowmload link: https://library.sciencemadness.org/library/books/ignition.pd...
YouTube chemists visit Dr. Kraus' fluorine lab in Germany: https://youtu.be/UzIH6raTxyE?si=74Pfn0i8Whq09Iim
I remember this article and I'm laughing before I even click the link. What a delightful read. Even more delightful I've never encountered this molecule.
Bit rot: the article links to http://www.lateralscience.co.uk which is now just an advertisement for online gambling.
Here's a good snapshot of that page as it appeared in 2010, when this article linked to it:
https://web.archive.org/web/20100430182802/http://www.latera...
> 433 kcal/mole
For reference, TNT is 1kcal/g. This is 6.2 kcal/g.
Less of a FOOF and more of a BOOM
There are two kinds of popular reposts in the world.
Most are Type 1, which is "meh, this again" followed by a scroll away.
This is an excellent example of Type 2, which is "Oh boy! I get to read this again!"
(See also: the SR71 speed check story; the story of Mel, the Real Programmer; etc.)
I'd like to add the "We can't send mail more than 500 miles" story to that list: https://web.mit.edu/jemorris/humor/500-miles
OH, absolutely. That's another gem!
Ah, the SR-71 was new to me, thank you!
https://www.thesr71blackbird.com/Aircraft/Stories/sr-71-blac...
http://www.catb.org/jargon/html/story-of-mel.html
I will always reread the story about Satan's Kimchi.
Dioxygen Difluoride
That both words start with DIe! is enough to warn me off.
Dihydorgen Dioxide. Oh no!
Not the best example. Hydrogen peroxide is actually rather nasty when highly pure. I mean, it's got nothing on FOOF, not many things do, but it's still in a class where it needs to be handled with care and shouldn't be handed to non-professionals. Don't be fooled by the fact it's sold in grocery stores at low concentrations.
Not as bad as FOOF, but still burns on contact to an open sore.
Pure hydrogen peroxide will do a lot worse than burn on contact with an open sore, unless you mean "set your sore on fire" (though it's more likely to detonate, or spontaneously dissociate into steam and pure oxygen).
Usual solutions for disinfection are 3~5%, at 35% h2o2 will bleach skin, and bite through it.
Read up on the Me-163 if you want to see the craziness that's involved with using high-purity H2O2 as an oxidizer. With a hydrazine/methanol mix fuel to boot.
"Ignition" was already mentioned. It has quite a few "anecdotes" about T-Stoff (then German term for 85%+ pure H2O2).
30% is non-chlorine pool shock, and readily available where I am (VT). As it happens, it's also one of the parts of two part wood bleach. The other part is a solution of NaOH (lye, available in solid form for drain opener). Works great, best used while wearing gloves and a face shield.
Sure. We also call it bleach :P
Bleach, when people refer to the general product you can buy in the grocery store called "bleach", is sodium hypochlorite, not hydrogen peroxide.
You can call hydrogen peroxide bleach, or a bleaching agent, but if you ask your significant other for "bleach" you're not going to get hydrogen peroxide.
Speak for yourself, we have/had a bottle of it lying around. Used for bleaching hair and as a cleaning agent. It's not Clorox, but actually says hydrogen peroxide (low dosage though).
High test peroxide is used as a rocket monopropellant, and was involved with the loss of the submarines HMS Sidon and Kursk.
Many things are used as rocket propellant not least of which O2. As in all things dose makes the poison.
You missed a prefix in monopropellant. That "mono-" is doing a lot of work that you ignored.
Oh, then add nitrous oxide. There, problem solved.
> That "mono-" is doing a lot of work that you ignored.
Ironic, given they generally produce less thrust.
In case you weren't dissuaded by the article, here's the synthesis procedure that it starts off by referencing: https://sci-hub.st/https://doi.org/10.1016/S0022-1139(00)803...
I clicked that permalink to lateral science ("Blown up or poisoned") and unfortunately the website appears to be hacked. :(
The page is archived, and it is a fun read: https://web.archive.org/web/20111229065146/http://www.latera...
I wonder if you can still order a kilo of "Satan's kimchi" from that supplier in China. If you ever could.
Check the address. If the building is still standing, then no.
They don't appear to offer Dioxygen Difluoride (O2F2, CAS: 7783-44-0) [1] any longer.
[1] https://commonchemistry.cas.org/detail?cas_rn=7783-44-0
Closest they now offer is Tungsten difluoride dioxide (WO2F2, CAS: 14118-73-1). [2]
[2] http://www.sagechem.com/product/1037013
If you go to: R501 Tower A, New Youth Plaza, 8 Jia Shan Road, Hangzhou, China [3] you could ask in person.
[3] https://www.hxchem.net/English/hycontactlizi3865.html
Almost interested in sending them an email out of boredom just to see whether they make it with custom synthesis.
A. G. Streng would probably have been forgotten about like so many if he hadn't been such a risk taking experimental chemist. Now someone's probably going to make a movie or comic book about him.
Have already read this before and was interesting.
I did some research and inquiry and found out you can in fact get florine gas....and they can even compress it in tanks if you want.
Derek Lowe would never work with it, but this wikipedia page [1] lists 4 rocket propellant choices that contain F2O2 as the oxydizer.
[1] https://en.wikipedia.org/wiki/Liquid_rocket_propellant#Bipro...
These are mixtures of fluorine and oxygen, not FOOF.
What is the difference between F2O2 and FOOF? Just the structure?
Ah, good ol' FOOF: the chemical with the convenient name-synchronicity to what it will do to you!
There’s also FOOOF and FOOOOF, as well as FOOOOOF
https://en.m.wikipedia.org/wiki/Oxygen_fluoride#
Kind of like CAR CAAR etc.
Carbon Argonite? =)
Chemical nominative determinism at its best.
Ah yes, FOOF. The last sound you hear before you melt, explode, blow up, and disassociate at a molecular level.
And all of that at the same time! ;-)
FOOF, not to be confused with F00F (a bug in the Pentium which allowed unprivileged processes to lock up the system): https://en.m.wikipedia.org/wiki/Pentium_F00F_bug
Relevant https://what-if.xkcd.com/40/
I love Derek Lowe's writing. I think I've read most of his articles but this series is my favorite.
2010 being 15 years ago is making me feel pretty ancient.
FOOF-sulfur rocket engine would be fun.
That would be most definitely be classed as Type-3 fun.
hopefully this isn't trending because of the recent controversy about fluoride in tap water?
The article is good stuff. It's a shame he's now having to be writing Crisis, Part IX etc about the Trump admin trying to trash things. (https://news.ycombinator.com/item?id=43418192)
FOOF, not to be confused with the FLOOF's that everyone wants to work with
Good old FOOF
Found my next metal band name, thanks!
Ideally makes heavy use of pyrotechnics.
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