Difference between revisions of "Nitrogen triiodide"
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− | '''Nitrogen triiodide''' is a touch sensitive explosive often shown in chemistry demonstrations where it is exploded by the touch of a feather. For this reason, it is also known as | + | | Name = Nitrogen triiodide |
+ | | Reference = | ||
+ | | IUPACName = Triiodoamine | ||
+ | | PIN = | ||
+ | | SystematicName = | ||
+ | | OtherNames = Ammonia triiodide<br>Exploding paste<br>Nitrogen iodide<br>Triiodamine<br>Triiodine mononitride<br>Triiodine nitride | ||
+ | <!-- Images --> | ||
+ | | ImageFile = TouchPowder.png | ||
+ | | ImageSize = 220 | ||
+ | | ImageAlt = | ||
+ | | ImageName = | ||
+ | | ImageCaption = Touch powder just before and after an explosion, from youtu.be/f3FijQX4hDw | ||
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+ | <!-- Sections --> | ||
+ | | Section1 = {{Chembox Identifiers | ||
+ | | 3DMet = | ||
+ | | Abbreviations = | ||
+ | | SMILES = | ||
+ | }} | ||
+ | | Section2 = {{Chembox Properties | ||
+ | | AtmosphericOHRateConstant = | ||
+ | | Appearance = Dark red or brown solid | ||
+ | | BoilingPt = | ||
+ | | BoilingPtC = | ||
+ | | BoilingPt_ref = | ||
+ | | BoilingPt_notes = Decomposes (sublimation begins at −20 °C) | ||
+ | | Density = | ||
+ | | Formula = NI<sub>3</sub> | ||
+ | | HenryConstant = | ||
+ | | LogP = | ||
+ | | MolarMass = 394.719 g/mol | ||
+ | | MeltingPt = | ||
+ | | MeltingPtC = | ||
+ | | MeltingPt_ref = | ||
+ | | MeltingPt_notes = Decomposes | ||
+ | | Odor = Odorless | ||
+ | | pKa = | ||
+ | | pKb = | ||
+ | | Solubility = Insoluble | ||
+ | | SolubleOther = Soluble in [[diethyl ether]]<br>Insoluble in hydrocarbons | ||
+ | | Solvent = | ||
+ | | VaporPressure = | ||
+ | }} | ||
+ | | Section3 = {{Chembox Structure | ||
+ | | Coordination = | ||
+ | | CrystalStruct = | ||
+ | | MolShape = | ||
+ | }} | ||
+ | | Section4 = {{Chembox Thermochemistry | ||
+ | | DeltaGf = | ||
+ | | DeltaHc = | ||
+ | | DeltaHf = 264 kJ/mol | ||
+ | | Entropy = | ||
+ | | HeatCapacity = | ||
+ | }} | ||
+ | | Section5 = {{Chembox Explosive | ||
+ | | ShockSens = | ||
+ | | FrictionSens = | ||
+ | | DetonationV = | ||
+ | | REFactor = | ||
+ | }} | ||
+ | | Section6 = {{Chembox Hazards | ||
+ | | AutoignitionPt = None | ||
+ | | ExploLimits = None | ||
+ | | ExternalMSDS = None | ||
+ | | FlashPt = None | ||
+ | | LD50 = | ||
+ | | LC50 = | ||
+ | | MainHazards = Explosive | ||
+ | | NFPA-F = | ||
+ | | NFPA-H = | ||
+ | | NFPA-R = | ||
+ | | NFPA-S = | ||
+ | }} | ||
+ | | Section7 = {{Chembox Related | ||
+ | | OtherAnions = | ||
+ | | OtherCations = | ||
+ | | OtherFunction = | ||
+ | | OtherFunction_label = | ||
+ | | OtherCompounds = [[Nitrogen trichloride]] | ||
+ | }} | ||
+ | }} | ||
+ | '''Nitrogen triiodide''' ('''NI<sub>3</sub>''') is a touch sensitive explosive often shown in chemistry demonstrations where it is exploded by the touch of a feather. For this reason, it is also known as "touch powder". | ||
== Properties == | == Properties == | ||
=== Chemical === | === Chemical === | ||
− | Originally nitrogen triiodide was | + | Originally nitrogen triiodide was prepared by reacting [[boron nitride]] with iodine monofluoride in trichlorofluoromethane at −30 °C: |
:BN + 3 IF → NI<sub>3</sub> + BF<sub>3</sub> | :BN + 3 IF → NI<sub>3</sub> + BF<sub>3</sub> | ||
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=== Physical === | === Physical === | ||
− | + | Nitrogen triiodide is a dark purple, that can be almost brown or black much the same color as [[iodine]], insoluble in water. | |
+ | === Explosive === | ||
It is a super sensitive explosive once completely dry, yet not so when wet. This is because when wet, there are [[ammonia]] molecules in the structure of the compound, which helps to stabilize it. When the NI<sub>3</sub> dries, these ammonia molecules evaporate so the NI<sub>3</sub> structure is left very unstable, needing only the slightest amount of energy from friction or heat to turn into nitrogen and iodine vapor. | It is a super sensitive explosive once completely dry, yet not so when wet. This is because when wet, there are [[ammonia]] molecules in the structure of the compound, which helps to stabilize it. When the NI<sub>3</sub> dries, these ammonia molecules evaporate so the NI<sub>3</sub> structure is left very unstable, needing only the slightest amount of energy from friction or heat to turn into nitrogen and iodine vapor. | ||
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==Handling== | ==Handling== | ||
===Safety=== | ===Safety=== | ||
− | One must assume NI<sub>3</sub> contains a reasonable amount of elemental iodine as a impurity, due to the method it is created by. So all safety risks that apply to iodine, also apply to this | + | One must assume NI<sub>3</sub> contains a reasonable amount of elemental iodine as a impurity, due to the method it is created by. So all safety risks that apply to iodine, also apply to this chemical compound. |
Skin contact with the wet or dry solid will lead to long lasting unsightly brown stains to your skin. [[Sodium thiosulfate]] can be used to clean the stains. | Skin contact with the wet or dry solid will lead to long lasting unsightly brown stains to your skin. [[Sodium thiosulfate]] can be used to clean the stains. | ||
− | This chemical carries all the risks associated with sensitive explosives, but due to the explosion creating iodine vapor, carries the risks of the corrosive and somewhat toxic element too. While not a danger in an outside, windy environment, touch powder will quickly erode steel if exploded over it, as well as staining many surfaces like concrete due to the iodine. | + | This chemical carries all the risks associated with sensitive explosives, but due to the explosion creating iodine vapor, carries the risks of the corrosive and somewhat toxic element too. While not a danger in an outside, windy environment, touch powder will quickly erode steel if exploded over it, as well as staining many surfaces like concrete and wood, due to the iodine. |
The sensitivity of NI<sub>3</sub> once dry cannot be overstated. | The sensitivity of NI<sub>3</sub> once dry cannot be overstated. | ||
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===Disposal=== | ===Disposal=== | ||
− | Dry NI<sub>3</sub> is completely destroyed during detonation. This however produces a cloud of iodine vapor, which is toxic and highly corrosive. This is best done outside or in a | + | Dry NI<sub>3</sub> is completely destroyed during detonation. This however produces a cloud of iodine vapor, which is toxic and highly corrosive. This is best done outside or in a fume hood. Although most literature claims NI<sub>3</sub> and leftovers can be flushed down the drain, it's best to add an aqueous solution of [[sodium thiosulfate]] to neutralize them, as iodine is corrosive to the plumbing. |
Leftover NI<sub>3</sub> in the synthesis beaker can also be neutralized by adding [[ethanol]], before disposal.<ref>[https://books.google.ro/books?id=0rx6Cjx_l-AC&pg=PA98&lpg=PA98&dq=nitrogen+triiodide+disposal&source=bl&ots=tiircCHS8-&sig=9ci01HQABVi4A7_chjMFupZzqQg&hl=en&sa=X&ved=0CDMQ6AEwAmoVChMI1N744YWhxwIVTBMaCh2D7wNY#v=onepage&q=nitrogen%20triiodide%20disposal&f=false Shakhashiri, Bassam Z. ''Chemical Demonstrations: A Handbook for Teachers of Chemistry'' (1983), Volume 1, pag 98]</ref> | Leftover NI<sub>3</sub> in the synthesis beaker can also be neutralized by adding [[ethanol]], before disposal.<ref>[https://books.google.ro/books?id=0rx6Cjx_l-AC&pg=PA98&lpg=PA98&dq=nitrogen+triiodide+disposal&source=bl&ots=tiircCHS8-&sig=9ci01HQABVi4A7_chjMFupZzqQg&hl=en&sa=X&ved=0CDMQ6AEwAmoVChMI1N744YWhxwIVTBMaCh2D7wNY#v=onepage&q=nitrogen%20triiodide%20disposal&f=false Shakhashiri, Bassam Z. ''Chemical Demonstrations: A Handbook for Teachers of Chemistry'' (1983), Volume 1, pag 98]</ref> | ||
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=== Relevant Sciencemadness threads === | === Relevant Sciencemadness threads === | ||
*[http://www.sciencemadness.org/talk/viewthread.php?tid=16208 Nitrogen Triiodide (simple set-up)] | *[http://www.sciencemadness.org/talk/viewthread.php?tid=16208 Nitrogen Triiodide (simple set-up)] | ||
+ | *[http://www.sciencemadness.org/talk/viewthread.php?tid=452 Stabilizing Nitrogen Tri-iodide] | ||
[[Category:Chemical compounds]] | [[Category:Chemical compounds]] |
Latest revision as of 17:58, 4 September 2019
Touch powder just before and after an explosion, from youtu.be/f3FijQX4hDw
| |
Names | |
---|---|
IUPAC name
Triiodoamine
| |
Other names
Ammonia triiodide
Exploding paste Nitrogen iodide Triiodamine Triiodine mononitride Triiodine nitride | |
Properties | |
NI3 | |
Molar mass | 394.719 g/mol |
Appearance | Dark red or brown solid |
Odor | Odorless |
Melting point | Decomposes |
Boiling point | Decomposes (sublimation begins at −20 °C) |
Insoluble | |
Solubility | Soluble in diethyl ether Insoluble in hydrocarbons |
Thermochemistry | |
Std enthalpy of
formation (ΔfH |
264 kJ/mol |
Hazards | |
Safety data sheet | None |
Flash point | None |
Related compounds | |
Related compounds
|
Nitrogen trichloride |
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa). | |
Infobox references | |
Nitrogen triiodide (NI3) is a touch sensitive explosive often shown in chemistry demonstrations where it is exploded by the touch of a feather. For this reason, it is also known as "touch powder".
Contents
Properties
Chemical
Originally nitrogen triiodide was prepared by reacting boron nitride with iodine monofluoride in trichlorofluoromethane at −30 °C:
- BN + 3 IF → NI3 + BF3
Chemical reactions with nitrogen triiodide are not done due to its instability.
Physical
Nitrogen triiodide is a dark purple, that can be almost brown or black much the same color as iodine, insoluble in water.
Explosive
It is a super sensitive explosive once completely dry, yet not so when wet. This is because when wet, there are ammonia molecules in the structure of the compound, which helps to stabilize it. When the NI3 dries, these ammonia molecules evaporate so the NI3 structure is left very unstable, needing only the slightest amount of energy from friction or heat to turn into nitrogen and iodine vapor.
NI3 explodes with a loud cracking a cloud of bright purple smoke is produced. It is not a very powerful detonation, but a very pretty one and the violence of its explosion is often surprising when done from a very light touch.
Availability
NI3 must be made, and quite often, the iodine crystals need to be made first due to the difficulty and expense of buying pure iodine.
Preparation
Ground iodine is placed into an excess of ammonia solution. The iodine will not dissolve a large amount but the suspension is left to sit before filtering (the time varies between who you ask, but an hour is usually more than enough time for 20 or so grams). The ammonia solution turns a shade of brown.
The solid is usually not transported but the filter paper is moved to the final position where it is left to be dried in the air. It can be hard to tell when it is completely dry by appearance alone but a light tap with a long stick will detonate it if it is dry. There are many Youtube tutorials on this process.
Handling
Safety
One must assume NI3 contains a reasonable amount of elemental iodine as a impurity, due to the method it is created by. So all safety risks that apply to iodine, also apply to this chemical compound.
Skin contact with the wet or dry solid will lead to long lasting unsightly brown stains to your skin. Sodium thiosulfate can be used to clean the stains.
This chemical carries all the risks associated with sensitive explosives, but due to the explosion creating iodine vapor, carries the risks of the corrosive and somewhat toxic element too. While not a danger in an outside, windy environment, touch powder will quickly erode steel if exploded over it, as well as staining many surfaces like concrete and wood, due to the iodine.
The sensitivity of NI3 once dry cannot be overstated.
Storage
Nitrogen triiodide should NEVER be stored! Although it is somewhat stable as a solution in diethyl ether, the risks outweigh the benefits.
Disposal
Dry NI3 is completely destroyed during detonation. This however produces a cloud of iodine vapor, which is toxic and highly corrosive. This is best done outside or in a fume hood. Although most literature claims NI3 and leftovers can be flushed down the drain, it's best to add an aqueous solution of sodium thiosulfate to neutralize them, as iodine is corrosive to the plumbing.
Leftover NI3 in the synthesis beaker can also be neutralized by adding ethanol, before disposal.[1]
References
- ↑ Shakhashiri, Bassam Z. Chemical Demonstrations: A Handbook for Teachers of Chemistry (1983), Volume 1, pag 98