Difference between revisions of "Ferricyanide Crystal"
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+ | [http://esr.monmsci.net/wiki/index.php/Growing_Crystals back to Crystal Growing...] | ||
+ | |||
+ | ==Structure== | ||
+ | [[File:Structure_of_potassium_ferricyanide.png|thumb|right|200px|The structure of potassium ferricyanide]] | ||
+ | |||
+ | The structure of potassium ferricyanide consists of an iron molecule octahedrally coordinated by six cyanide ligands. | ||
+ | ==General Information== | ||
+ | *'''Molecular Weight''': 329.24 g/mol | ||
+ | *'''Appearance''': Red crystalline solid | ||
+ | *'''Melting Point''': 300°C | ||
+ | *'''Density''': 1.89 g/cm<sup>3</sup> | ||
+ | *'''Crystal Structure''': [https://en.wikipedia.org/wiki/Monoclinic_crystal_system Monoclinic] | ||
+ | |||
+ | ==Safety== | ||
+ | *When exposed to HCl, potassium ferricyanide forms hydrogen cyanide gas which is an asphyxiant and can be fatal. | ||
+ | *Potassium ferricyanide is not very toxic, but can stain. | ||
+ | |||
==General Procedure== | ==General Procedure== | ||
+ | [[File:20190407_133643.jpg|thumb|right| 250px| A picture of the potassium ferricyanide crystal grown by Seth Croslow]] | ||
+ | ===Materials Needed=== | ||
+ | * Potassium Ferricyanide | ||
+ | * Water | ||
+ | * Beaker or other container | ||
+ | *Hot plate or stove | ||
+ | *Stir rod or spoon(non food grade) | ||
+ | *filter(not necessary) | ||
+ | |||
+ | ===Procedure=== | ||
The most general way to grow a crystal includes forming a supersaturated solution by heating up water and adding in the crystal medium, here I used Potassium Ferricyanide, until is doesn't dissolve anymore. | The most general way to grow a crystal includes forming a supersaturated solution by heating up water and adding in the crystal medium, here I used Potassium Ferricyanide, until is doesn't dissolve anymore. | ||
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# Cover the finished solution with something(a watchglass or parafilm) and let it sit overnight. | # Cover the finished solution with something(a watchglass or parafilm) and let it sit overnight. | ||
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Note: Another way to do this would be to make a saturated solution and allow the water to evaporate slowly over time. This may yield a single large crystal instead of a conglomerate of smaller crystals, although it will take significantly longer. | Note: Another way to do this would be to make a saturated solution and allow the water to evaporate slowly over time. This may yield a single large crystal instead of a conglomerate of smaller crystals, although it will take significantly longer. |
Latest revision as of 21:43, 25 April 2019
Structure
The structure of potassium ferricyanide consists of an iron molecule octahedrally coordinated by six cyanide ligands.
General Information
- Molecular Weight: 329.24 g/mol
- Appearance: Red crystalline solid
- Melting Point: 300°C
- Density: 1.89 g/cm3
- Crystal Structure: Monoclinic
Safety
- When exposed to HCl, potassium ferricyanide forms hydrogen cyanide gas which is an asphyxiant and can be fatal.
- Potassium ferricyanide is not very toxic, but can stain.
General Procedure
Materials Needed
- Potassium Ferricyanide
- Water
- Beaker or other container
- Hot plate or stove
- Stir rod or spoon(non food grade)
- filter(not necessary)
Procedure
The most general way to grow a crystal includes forming a supersaturated solution by heating up water and adding in the crystal medium, here I used Potassium Ferricyanide, until is doesn't dissolve anymore.
For a general procedure, the following link can be used: How to Grow a Potassium Ferricyanide Crystal
The following is the procedure that I followed:
- Obtain potassium ferricyanide, a 250 mL beaker, a stirplate/hotplate, and a stirbar.
- Begin heating up the water on the hotplate and add the stirbar.
- Once hot, begin adding the potassium ferricyanide (It will take some time for it to dissolve, but it eventually will).
- Keep adding until the rate of dissolution decreases( The article above mentions to use about 93g in 200mL of water).
- Cover the finished solution with something(a watchglass or parafilm) and let it sit overnight.
Note: Another way to do this would be to make a saturated solution and allow the water to evaporate slowly over time. This may yield a single large crystal instead of a conglomerate of smaller crystals, although it will take significantly longer.