Author Topic: HI from I2 + Ascorbic acid  (Read 12028 times)

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WizardX

  • Guest
HI from I2 + Ascorbic acid
« on: October 26, 2002, 05:38:00 AM »
Ascorbic Acid  C6H8O6

Merck 11th Edition No. 855

Physical Properties

Molecular Weight 176.12 grams/mole
Mp 190-192 oC
pH = 3 (5mg/ml concentration)
pH = 2 (50mg/ml concentration)

Redox potential at first stage is pH 5.0 is E = +0.127 Volts.

One grams dissolves in 3 mls of water.

Possesses relatively strong reducing powers, decolourizes many dyes.

Aqueous solutions are rapidly oxidized by air. The reaction is accelerated by alkalies, iron and copper.


Making HI from I2 and Ascorbic Acid.

http://www.angelfire.com/scifi/WizardX/X4/ascorbic.bmp



C6H8O6 Ascorbic acid.
C6H6O6 Dehydroascorbic acid.

Balanced Reaction:

C6H8O6  ==>> C6H6O6 + 2H(+) + 2e   E = +0.127 Volts
I2 + 2e ==>> 2I(-)         E = +0.540 Volts
---------------------------------------------------------
C6H8O6 + I2 ==>> C6H6O6 + 2H(+) + 2I(-) E = +0.667 Volts
---------------------------------------------------------

The above reaction is used in analytical chemistry to determine quantitatively the amount of ascorbic acid.

In basic form: C6H8O6 + I2 ==>> C6H6O6 + 2HI

Simple Experiment.

Control Flask.

In a 50 ml flask, fill with 50 mls of demineralised water and add an iodine crystal. Stopper with rubber stopper.
 
Iodine solubility in water is 0.0013 moles in 1Lt at 25 oC


Reaction Test Flask.

In a 50 ml flask, fill with 50 mls of 1M Ascorbic Acid solution (176.12 grams in 1 Lt of demineralised water) and add an iodine crystal of equal size as the Control. Stopper with rubber stopper.

Observe that happens.


57% HI SOLUTION (HYDRIODIC ACID) : B.p 125.5-126.5 oC/760mmHg
Density 1.70 gr/ml ;  55-57%  w/w HI is 0.936 to 0.99 grams of HI per ml.

If 57% w/w HI solution has a boiling point of 125.5-126.5 oC/760mmHg at which it form a azeotropic solution. Then lowering the pressure will lower the boiling point temperature and thus flash azeotropic distill the HI from the dehydroascorbic acid + HI solution.

At room temperature the reaction of HI with the hydroxy part of the glycol, -C(-OH)-C(-OH) functional group on the dehydrascorbic acid is very slow. Refluxing is required to iodinate or reduce to -CH2CH3

Therefore, by using flash azeotropic distillation (380-570mmHg) the reaction between the dehydrascorbic acid + HI can be minimized.








wareami

  • Guest
DooBeeDoo...as eloquently put by The Chief...
« Reply #1 on: October 26, 2002, 07:46:00 AM »
...a few posts back!
Ibee was reluctant to post a reply for fear of sounding stupid...But that's never stopped him before. Why Stop now???
They don't call it "The YellowBrick Road" for nothing!
Excellent is an understatement if this means what Ibee thinks it means!

Time to hit the Books!!!
Ibee may need a Nurse or TWO after this one!

Thanx WizardX...
Peace of the REaction
Have FUN-Bee SAFE







Everything Ibee says should be taken with a Large Grain of Sympathomimetic Amine Salt
ô¿ôWareami

Organikum

  • Guest
more than only interesting
« Reply #2 on: December 18, 2002, 12:49:00 PM »
this is.

And it shows how easily valuable posts are overlooked by me.
Thanks WizardX! And also for the browser test, OPERA don´t crashes  ;)
Quality matters....   :)


ORG

now or never

cHiLLy

  • Guest
vitamin c
« Reply #3 on: January 06, 2003, 10:54:00 PM »
Shouldn't this be talked about more? Has anyone tried this? this seems very promising..and ascorbic acid is so easy to get.

superman

  • Guest
i feel obliged to revive this thread yet again
« Reply #4 on: June 25, 2003, 10:58:00 PM »
i feel obliged to revive this thread yet again.   why won't a more knowledgable bee comment on this?

if i only had an education...


fierceness

  • Guest
because its like a lot of the other I2 + X...
« Reply #5 on: June 26, 2003, 12:10:00 AM »
because its like a lot of the other I2 + X -> HI reactions..  it cannot be done in situ like hypo/phosphorous acid or red phosphorous.. it requires the HI to be distilled, or the HI(g) to be piped into some cool water

CainTwister

  • Guest
Perhaps...
« Reply #6 on: June 26, 2003, 03:29:00 AM »

adroit_synth

  • Guest
Anybee have a writeup on this?
« Reply #7 on: November 14, 2003, 09:44:00 PM »
This looks just too good to be true.  WizardX's homepage is down and SWIM would like more info on this.  SWIM may start experimenting with this method anyhow but would like some more input from bees with more wisdom than SWIM.

Glacial_Refluxer

  • Guest
water purification kit
« Reply #8 on: November 16, 2003, 11:38:00 PM »
Ive seen kits that contain 2 bottles, one is iodine pills
the other is ascorbic acid pills. I wonder why?


biotechdude

  • Guest
U may have HI, but still need to P
« Reply #9 on: November 17, 2003, 12:06:00 AM »
Now all you bees r flooding their labs with 'new' HI; lets not forget the necessity of a P based recyclant eg HypoP, RP, P acid.

Dont throw away your rp just yet...

ning

  • Guest
dude, I think that was the idea....
« Reply #10 on: November 17, 2003, 12:47:00 AM »
Not that ning is the biggest expert on RP/I, but seems that the reaction goes:

reduction:
blahblah-OH + HI --> blahblah-I + H2O
blahblah-I + HI --> blahblah-H + I2

recycle:

H2O + I2 + P --> ??? + HI

So by using an excess of ascorbate, the HI is continuously regenerated from the I2. Just like RP...Of course, there is that little problem of the HI attacking the ascorbic acid's OH groups too...oh well...

biotechdude

  • Guest
P for reduction to meth
« Reply #11 on: November 17, 2003, 02:16:00 AM »
I meant a P based recycler for the reduction of E to meth; where the HI is consumed and needs to be regenerated in real time and kept at [57%].  I think the distillation is to remove freshly made HI into another vessel so that it doesn't attack the remaining reagent ascorbic.  Or have i missed the boat again.... i hope so?!

WizardX

  • Guest
HI
« Reply #12 on: November 17, 2003, 04:17:00 AM »
HI from I2 + Ascorbic acid is a method for making HI only. Then use reduced pressure azeotropic distillation (1/3 less of B.p 125.5-126.5 degC @ 760mm Hg) to purify your HI.

Approx. B.p 84 degC @ 506mm Hg

Do not think you can use the Ascorbic acid like RP, to recycle the I2.

Login Page.

http://www.angelfire.com/scifi/WizardX/login.html


bigdumbnut

  • Guest
There are a number of previous posts ...
« Reply #13 on: November 17, 2003, 04:19:00 AM »
There are a number of previous posts (including one from Rhodium)stating a recycler (some form of phosphorous)is not required if there is enough of an excess of HI

biotechdude

  • Guest
P less HI rxns are possible, but unfeasable...
« Reply #14 on: November 18, 2003, 09:36:00 AM »
P less HI rxns are possible, but unfeasable on a clandestine level.  I know this because Swix has done them himself; however BOS has also made him aware of the possible avenues to sucess.

That said, the main problem with P-less HI reductions is that the HI decomposes.  This is caused in small part from the actual HI consumed by reaction; but mainly due to the decomposition of HI at reaction temp.  This lowers the HI concentration below the required 57%.  The nett effect being low yield, half reacted goods, and blackened solution due to the free Iodine.

Best bet is to make some quick and easy HI, then invest the rest of your time into a P-based recyclant.  However, i reinterate that HI-only rxns are possible; just 'not recommended' for easiest route to sucess.


fierceness

  • Guest
the reason
« Reply #15 on: November 19, 2003, 03:58:00 AM »
The reason that you need a recycler in the reaction is that you need a high concentration of HI for the reaction to work.  Without a recycler, after the HI reacts with pseudo to form iodometh then meth, you're left with I2 rather than HI. 

It's too bad that you cannot selectively boil off water from a water/HI solution.  That would then perhaps keep the concentration high enough to reduce the pseudo.

adroit_synth

  • Guest
H2O selective distillation?
« Reply #16 on: December 11, 2003, 08:36:00 PM »
SWIM is an amateur in every sense of the word. Yet he wonders why something similar to what feirceness mentioned cannot be effected.  SWIM admits he chuckled when he first read it, then on second thought, he wondered if something very polar may be able to hold the HI more so than the water and allow it to distill seperately from the HI. SWIM knows this can get tremendously complex when discussing and actual RxN, but for now he just wonders if the idea is plausible.

biotechdude

  • Guest
may rid of iodo-m, but what about I2?
« Reply #17 on: December 12, 2003, 10:49:00 AM »
From Wizard X
<<
Ok! Lets look at "The reduction of Ephedrine with HI".

(1) HI + ephedrine => iodoephedrine + H2O
(2) iodoephedrine + HI => meth + I2
>>

Do you mean boil off water (produced from reaction 1) to reduce the rxn volume and hence concentrate (or maintain 57%) HI in the remaining solution; to effect a complete reduction to meth.  This may satisfy reaction 1

Now reaction 2 - What about I2?  Without a P-based recycler; this would remain and leave u with a thick black sludge... primo for some nasty (inhibiting) side reactions and hardcore post reaction workup.


WizardX

  • Guest
reduction mechanism
« Reply #18 on: December 12, 2003, 11:20:00 AM »
By adding RP you remove the I2 & H2O

2P + 3I2 ==> 2PI3
PI3 + 3H2O ==>> 3HI + H3PO3

The fundamental reduction mechanism of ephedrine reduction goes through these steps.
(1) HI + ephedrine => iodoephedrine + H2O
(2) iodoephedrine + HI => meth + I2

Plague

  • Guest
Forgive me....
« Reply #19 on: January 20, 2004, 12:58:00 PM »
Forgive me if I appear to be thicker than the offspring of a village idiot & a Tv weathergirl, but are we essentially looking at either an excess of HI, ie.2x the normal requirments? Or a two rxn process?