That's what I love about this channel. He shows so much stuff you will never see anywhere else! Even after a Ph.D and several years of professional experience in inorganic chemistry, I never got the chance to mess with half the stuff he shows here!
Great intro! It's only a bunch of rocks, but they are shown in a way -- and with a sound track -- that builds intrigue. Fancy camera work to "stroll" through a field of objects that small. The artistry on this channel is amazing.
Lithium + sulfur hexafluoride, the torpedo fuel that produces no gas so it can be used at any depth please or lithium + Teflon which is used for decoy flares for heat seeking missiles. Another fantastic video excellently shot as always.
@@garethjones4742 Yeah, well he got the fire part but he missed the explosion part. There was a U.S. plant making these flares and a fire started and people didn't go far enough away and the deflagration converted into a detonation like Texas City and Beirut and killed a number of plant workers because just like with ammonium nitrate nobody knew it was explosive until it exploded.
You do all these cool videos but you never show the after. I would be interested in seeing your cleanup, disposal, safety measures, and just in general the after the experiments. Also you should do more of yourself in these videos! Thanks again for another interesting video! I would also like to see your lab!
Your content is underrated. This should have millions of views. Amazing slow mo shots of chemistry, really well done. I also wish I had something I could trust, like you trust your fume hood. :D
I remember making LiAlH4 from that. Easiest way to do it is add AlCl3 LiH and dioxane to a ball mill with a dry nitrogen purge and let it grind for a few days. You end up with a syrup of dioxane and LiAlH4 and some LiCl. Best to calculate the strength in g/ml and use it in this form.❤
My favorite reaction uses an isotopic sister-compound of LiH: LiD (Lithium deuteride). First all, some neutrons are required: ⁶LiD + ¹n → D + T + ⁴He↑. Then, we need 63keV to form D + T → ¹n + 17.6 MeV + ⁴He. I really love this reaction.
@@drMentalBar It always depends on your intention. Since the difference between an explosive device and a power plant is only defined by the energy turnover by time unit, you can use this reaction for electrical power production as well. One feasible way is to use LiD as a fuel in a high yield, high pressure pulse plasma fusion reactor, we had developed in our institue about ten years ago - before it was shut down by our government due to issues with our oil industry and mineral oil tax system: First, kick-start the reaction by exploding a tiny amount of LiD in the Hohlraum within a T-gas atmosphere. This will create a bunch of 14.1MeV-neutrons, that produces additional T from LiD in situ for subsequent shots. Thermal power can be extracted from moderated surplus-neutrons and Alpha-particles, inductively slowed down (provides about 20% of the total output power as electricity). Since each cycle is 100% externally powered, all hassles with the Lawson criterion vanish and you can get a yield, Tokamak-people can only dream of. After we had started with the aneutronic p-B-reaction scheme, politicians freaked out. Pulse plasma fusion science at SNL (Sandia National Lab) was defunded by the US-government and the institute for nuclear energy physics at the University of Basel (Switzerland) was completely closed down. Since 2017, our nuclear law forbids exothermic nuclear fusion for power generation explicitly.
I would like if you did a comparison of reaction in the presence and absence of air, to see how LiH reacts with chlorides without burning of the product
are you a filmmaker who got into chemistry or a chemist who got into filmmaking because the shots of these reactions are truly cinema quality 🤩👍👍 truly underrated content here 👌👌👌
Compliments from this point viewing accentuate is spot online quality... Extremely well done... ...I'm never going to attend & many of these observations i won't attempt... ...Thanks volatility in Caspian measure.. Utube favorites.
I thought I was brave when I used Silane and Diethyl Zinc to ignite rocket engines, but then this magnificent madman adds OZONE for that certain je ne sais quoi...
I really wish i could see its true potential in reducing properties like being able to reduce titanium carbide iron carbide(good old steel) or alkoxides(besides hydrogen) or even aluminium phosphide or organic phosphide could have been amazing
Would like to see the reaction of lithium hydride with concentrated hydrogen peroxide (85% or higher) or white fuming nitric acid. Believe both reactions are hypergolic especially with nitric acid.
Seeing reactions that could never be done in a traditional chemistry lab is amazing. I think there is some really important chemistry to be gleaned from some of these experiment. The reaction with SiH4 is particularly interesting as I would like to do some TEM on the "SiO2" smoke. Now, how about C3O2 which is described as an "evil smelling" liquid?
Smaller molecule size, the only thing that can reduce this compound is theoretical metallic hydrogen and it should reduce to more metallic hydrogen, that's why obtaining even a single sample of metallic hydrogen is important.
A nice and interesting topic... but you did not tell us how lithium hydride is formed in nature and in the laboratory... Thank you for this effort you are making.
I love how aggressive some of those tetra- and penta-chlorides are, when they ignite in the test tube. Part of me will always wonder, how they smell. :3
According to wikipedia, TiH4 is thermodynamically unstable and has never been produced in bulk. Not sure what product you made, but at those temperatures, there's no way TiH4 survived long enough to exit the tube. Also, all the halides you mention would flash boil on contact with the ~700C liquid hydride, so this whole video is suspicious.
LiH - never thought of it being the lightest ionic compound. WOW, nice footage and soundtrack. What else can one do with LiH? Sane chemists, I mean. :D
4:32 Silicon dioxide, or as I like to call it, spark plug wire magic smoke. That thing you see in cars when either a spark coil fails or one of the spark plug wires falls on the exhaust and turns into a big pile of fluffy dust.
I'm ashamed of myself for not being able to contribute financially to your channel. The reactions that you show us are so exotic and rare to see. Also, its criminal that you don't have more subs!
Oh damn, people used to buy heroin OTC, now you simply can't do anything more dangerous than a sodium bicarbonate shit, then they expect competent people working at the boeing door sealant and don't realize why the stuff is so expensive nowadays.
I recently saw something about people proposing caesium and rubidium for hydrogen storage. After watching this it occurs to me that they probably mean hydrides. Just how dangerous would these be in comparison?
8:30 Yes, that would be Stibine, SbH3. Ignites in air like the other non-metallic hydrides did. You made "Titanane" 😉😂and Stannane later in the video. Plumbane, PbH4, is possible, but it's extremely unstable.
"Titanium tetrahydride only ignites in ozone, so let me get out my ozone source"... I kneel 👑
an ozone generator is less than 100 bucks!
Timestamp?
@@ahmaudarberywasaviolentkle8094 9:27
Lets pour some ozone-saturated liquid oxygen on it just for good measure
@@adambarlev8992 before or after the anhydrous hydrazine?
Felicks, did I tell you how brave I think you are? You show us chemistry that HAS to be a bit scary. But you do it for us all the time. Brilliantly!
You are the craziest chemist that I love the most, probably you are the top test tube destroyer on TH-cam
I am a test tube baby destroyer😈😈
Nilered
@@alberteinstein3078 nobody asked
@@anoobis117 I don't ask permission
@@anoobis117nobody asked
These methane analogues are probably not seen anywhere else, thank you ❤
You should donate!
That's what I love about this channel. He shows so much stuff you will never see anywhere else!
Even after a Ph.D and several years of professional experience in inorganic chemistry, I never got the chance to mess with half the stuff he shows here!
The slow motion replays of the various combustion reactions are gorgeous as usual.
Great intro! It's only a bunch of rocks, but they are shown in a way -- and with a sound track -- that builds intrigue. Fancy camera work to "stroll" through a field of objects that small. The artistry on this channel is amazing.
We all love lithium aluminium hydride but BRO JUST SHOWED UP WITH LITHIUM HYDRIDE
What's next helium hydride!!??
lah
EXACTLY! LIKE BRO WAHT?!
It's the starting material to make LiAlH4. It's a lot cheaper to make it than purchase it as well.
Next video: pure electrons
Man this guy has all the cool chemicals to play with. I am so jealous.
Lithium + sulfur hexafluoride, the torpedo fuel that produces no gas so it can be used at any depth please or lithium + Teflon which is used for decoy flares for heat seeking missiles. Another fantastic video excellently shot as always.
Pretty sure explosions and fire did the teflon/lithium reaction
I thought that they got banned by YT
Just checked the videos are still up
@@garethjones4742 Yeah, well he got the fire part but he missed the explosion part. There was a U.S. plant making these flares and a fire started and people didn't go far enough away and the deflagration converted into a detonation like Texas City and Beirut and killed a number of plant workers because just like with ammonium nitrate nobody knew it was explosive until it exploded.
@@bobsmith6079ammonium nitrate is not an explosive
The pale yellow flame when you added the antimony pentachloride was oddly pretty. Such a gentle color coming from Turbo-Cancer Juice.
You do all these cool videos but you never show the after. I would be interested in seeing your cleanup, disposal, safety measures, and just in general the after the experiments. Also you should do more of yourself in these videos! Thanks again for another interesting video! I would also like to see your lab!
This
The atmosphere is natures bin ;)
Probably doesn't want to doxx the lab
(Chemical Force's chemical and equipment suppliers)
"He's put a new video on youtube, you can book that holiday to the Bahamas"
😂😂😂
The cinematography here is amazing!!
I'm amazed that lithium hydride is so stable in air...
Well consider me chemically informed. Thanks. Great work as usual!
I am always shocked that this channel doesn't have a larger following. It's easily better than a lot of other chemistry channels!
It will in the future just takes some time
Right, like nile red who can't seem to do anything right.
@@Fine_i_set_the_handle That's the point of his channel. For many it's funny
@@Fine_i_set_the_handle I used to like his videos but they are getting worse every video
Love all the videos, thanks for another one. Please don’t change anything.
Aaah nice another set of forbidden classroom demonstrations 😅
You truly catch the beautiful world of chemistry.Even if you have no clue the experiment you are doing.The colors and camera shots are great thank you
Strange, I didn't see this video suggested to me until today. Always amazing production quality and I really enjoy them.
The silicon one is a silicosis smoke bomb
Your content is underrated. This should have millions of views.
Amazing slow mo shots of chemistry, really well done.
I also wish I had something I could trust, like you trust your fume hood. :D
Thanks for the truly well made one of a kind videos. You're doing really great work and you seem to have very high safety standards.
Best chemistry channel by far! I love seeing all these rare chemicals and reactions. Thanks!!!
Amazing and rare footage sir. Awesome work as usual.
5:16 BBr3
So many great reactions in this one, but the TiCl reaction was just lovely
Some excellent slow mo in this video!
I love that ozone + TiH4 demonstration, especially with that thick TiO2 smoke
I remember making LiAlH4 from that. Easiest way to do it is add AlCl3 LiH and dioxane to a ball mill with a dry nitrogen purge and let it grind for a few days. You end up with a syrup of dioxane and LiAlH4 and some LiCl. Best to calculate the strength in g/ml and use it in this form.❤
LiH is probably best known for being a big enhancer for thermonuclear weapons.
Lithium deuteride is the bomb enhancer (extra neutron thrown towards the Hydrogen atom)
My favorite reaction uses an isotopic sister-compound of LiH: LiD (Lithium deuteride). First all, some neutrons are required: ⁶LiD + ¹n → D + T + ⁴He↑. Then, we need 63keV to form D + T → ¹n + 17.6 MeV + ⁴He. I really love this reaction.
And now we've got thermonuclear... 😂
@@drMentalBar It always depends on your intention. Since the difference between an explosive device and a power plant is only defined by the energy turnover by time unit, you can use this reaction for electrical power production as well. One feasible way is to use LiD as a fuel in a high yield, high pressure pulse plasma fusion reactor, we had developed in our institue about ten years ago - before it was shut down by our government due to issues with our oil industry and mineral oil tax system: First, kick-start the reaction by exploding a tiny amount of LiD in the Hohlraum within a T-gas atmosphere. This will create a bunch of 14.1MeV-neutrons, that produces additional T from LiD in situ for subsequent shots. Thermal power can be extracted from moderated surplus-neutrons and Alpha-particles, inductively slowed down (provides about 20% of the total output power as electricity). Since each cycle is 100% externally powered, all hassles with the Lawson criterion vanish and you can get a yield, Tokamak-people can only dream of. After we had started with the aneutronic p-B-reaction scheme, politicians freaked out. Pulse plasma fusion science at SNL (Sandia National Lab) was defunded by the US-government and the institute for nuclear energy physics at the University of Basel (Switzerland) was completely closed down. Since 2017, our nuclear law forbids exothermic nuclear fusion for power generation explicitly.
Bravo!
Sounds like a fuel recipe for a Teller-Ullam device😂.
@@Mike_B-137 It always depends on ones intention: Energy production, or destruction.
Dudes slo mos are always on point and great focus you see all the little details fantastic job bro
Thanks!
🤑 Thank you! 🤑
I'll add your name to the credits for my next video about how I add tert-butyllithium to liquid oxygen oops spoiler 😬
This cinematic intro is insane :) Good job!
I would like if you did a comparison of reaction in the presence and absence of air, to see how LiH reacts with chlorides without burning of the product
It is BBr3 at the place of PBr3 at 5:16 :D
BBr you awake ? New Chemical Force video just dropped
Well... I'm glad you knew the reactivity better than I did. I near bricked it when you dropped a large piece in water.
the slow motion videos are gorgeous
are you a filmmaker who got into chemistry
or a chemist who got into filmmaking
because the shots of these reactions are truly cinema quality 🤩👍👍
truly underrated content here 👌👌👌
Compliments from this point viewing accentuate is spot online quality...
Extremely well done...
...I'm never going to attend & many of these observations i won't attempt...
...Thanks volatility in Caspian measure..
Utube favorites.
In the last experiment, it looks like the ozonated oxygen ignited lithium hydride chunks that were ejected from the mix. Super cool experiments!
Background music as perfect as video
👍
I do enjoy watching things go boom.
Another superb video. Thank you.
Wow! Thank you for getting such rare things! Please tell me how to get lithium hydride from lithium amide?
interesting chemistry as always
casually generates PHOSPHENE in his lab...just to allow it to self-decompose....for views....legend
You should make a super cut video mashup of all the best slow motion reactions one after the next. Would be better than New Years fireworks.
I thought I was brave when I used Silane and Diethyl Zinc to ignite rocket engines, but then this magnificent madman adds OZONE for that certain je ne sais quoi...
man i loved those pyrophoric gas video
I really wish i could see its true potential in reducing properties like being able to reduce titanium carbide iron carbide(good old steel) or alkoxides(besides hydrogen) or even aluminium phosphide or organic phosphide could have been amazing
dude's discovery channel of chemistry
Would like to see the reaction of lithium hydride with concentrated hydrogen peroxide (85% or higher) or white fuming nitric acid. Believe both reactions are hypergolic especially with nitric acid.
Seeing reactions that could never be done in a traditional chemistry lab is amazing. I think there is some really important chemistry to be gleaned from some of these experiment. The reaction with SiH4 is particularly interesting as I would like to do some TEM on the "SiO2" smoke. Now, how about C3O2 which is described as an "evil smelling" liquid?
I like all your videos but this one was especially great 😊
And can be highly unpredictable as well!!
Forbidden rock salt.😋
👏👏👏👏👏👏👏👏 Incredible work!
5:55 Lovely meteor simulation
So many awesome reactions!!!!!
Awesome! Will it reduce teflon or PFAS?
Is LiH more reactive than CsH? If it is then is it more reactive, because of the same reason Li metal can reduce ceasium?
Smaller molecule size, the only thing that can reduce this compound is theoretical metallic hydrogen and it should reduce to more metallic hydrogen, that's why obtaining even a single sample of metallic hydrogen is important.
No, Caesium Hydride is the most reactive of the alkali metal hydrides.
I love you're channel
A nice and interesting topic... but you did not tell us how lithium hydride is formed in nature and in the laboratory... Thank you for this effort you are making.
It for sure doesnt exist in nature
Hey your chemical videos are very nice.But now you should have to create a video about'copper arsenide'.
Ahh the collaboration video. But seriously, what are you up to? (especially with ozone!)
5:16 has a text error. It says PBr3 but should be BBr3. (Boron not Phosphorus).
That "white soot" is important! Please store it somewhere safe and the run tests with it on semiconductor creation :P
fantastic video.
Could you use a diffraction grating to discern the elements in that colorful fire ?
I love how aggressive some of those tetra- and penta-chlorides are, when they ignite in the test tube.
Part of me will always wonder, how they smell. :3
According to wikipedia, TiH4 is thermodynamically unstable and has never been produced in bulk. Not sure what product you made, but at those temperatures, there's no way TiH4 survived long enough to exit the tube. Also, all the halides you mention would flash boil on contact with the ~700C liquid hydride, so this whole video is suspicious.
Youre nuts! LiAH is scary enough. Next up: Plutonium Arsenic Hydride
LiH - never thought of it being the lightest ionic compound. WOW, nice footage and soundtrack. What else can one do with LiH? Sane chemists, I mean. :D
@3:15 That is a big ampoule!
Actually a crazy person. Great Video tho
Even watching from here I feel the urge to put on safety glasses!
We need more reaction of LiH, maybe organics or different nitrates, phosphates, sulfates, perchlorate and oxides.
Great video!
Let’s Actually Go! Chemically wise😅
Our boy is legendary.
4:32 Silicon dioxide, or as I like to call it, spark plug wire magic smoke. That thing you see in cars when either a spark coil fails or one of the spark plug wires falls on the exhaust and turns into a big pile of fluffy dust.
How good a reducing agent is it in layman's terms? Like if i put my debts in there will it reduce them? Asking for a friend.
I'm ashamed of myself for not being able to contribute financially to your channel. The reactions that you show us are so exotic and rare to see. Also, its criminal that you don't have more subs!
It's okay, your feedback in the form of comments, discussions and likes is the best reward 😍
3:46 Silane is no joke btw, stuff's evil. Known for causing many an industrial chemical explosion.
WE MAKING IT ON THE FBI WATCHLIST WITH THIS ONE
Oh damn, people used to buy heroin OTC, now you simply can't do anything more dangerous than a sodium bicarbonate shit, then they expect competent people working at the boeing door sealant and don't realize why the stuff is so expensive nowadays.
One Neutron short for this task😏
FFS have a day off
Why?
@@goiterlanternbase I see what you did there! Good one!
Isn't this basically what is used in the fusion stage of thermoniclear weapons 😮 Lithium-6 Deuteride?
Fused quartz test tubes can be anywhere from US$25 to as much as US$300. I suspect this one is closer to the higher end of the price range.
Yes, it was a pretty expensive video 😬 but the footage that I managed to capture is priceless!
I recently saw something about people proposing caesium and rubidium for hydrogen storage. After watching this it occurs to me that they probably mean hydrides. Just how dangerous would these be in comparison?
Molten Salt question: when an ionic, crystalline compound melts, are the atoms still ions?
"Mildly" dangerous, compared to nuclear weapons 😂
But realy exotic reagents, best in the word.
Plus perfect cinematography.
Can you show us the clean up process?
What is the best reducing agent? What would PH3 + I2 do?
why u didn't test it with sodium chlorate :( or liquid oxygen.
RIP test tube.
🤑Thanks mate!🤑
I think this is enough for one used quartz test tube 😁
What’s the tarry dark substance that’s in the tube right when you’re melting the hydride ?
I was hoping to see some oxygen dihydride: surely it would be super flammable.
8:30 Yes, that would be Stibine, SbH3. Ignites in air like the other non-metallic hydrides did. You made "Titanane" 😉😂and Stannane later in the video. Plumbane, PbH4, is possible, but it's extremely unstable.
I'm confused, if there's no change in the oxidation number for the reactions you showed, then why is it a reducting agent?
What’s causing the reddish flame around the main flame in the SiCl4 one?