I am glad to see you posting again and still doing good science.
I have to agree with the other comments though that although this reaction does produce iodine isolating it might prove to be difficult, good luck though.
Get a solution of potassium iodide and add hydrogen peroxide to it, then add concentrated HCl to it to create a suspension of I2. Then filter the I2, then purify it by vaporization re-crystallization
witch craft ! burn his at stake
(kidding ofcorse)
1998anirudh 3 weeks ago
peroxodisulphate ions
brisingrtwilighter 3 months ago
Wow! Very clear explanations!
chongjh123 6 months ago
cool buffer
schnepman1993 9 months ago
Solve the Iodine from the aqueous solution by shaking the iodine containing liquid with Dichloromethan/Chloroform/Tetrachloromethane/Diethylether.
The solvents should change their colours from colourless to a nice dark red.
Chaoschemiker 1 year ago
I am glad to see you posting again and still doing good science.
I have to agree with the other comments though that although this reaction does produce iodine isolating it might prove to be difficult, good luck though.
mrericsully 1 year ago
there are much easier ways to get iodine ( KI with HCL and H2O2 ), and the iodine you obtain from this method will most likely have impurities in it
viclorwow 1 year ago
@viclorwow yeah definately, but we wanted to show that the clock reaction actually produces iodine
dbc616 1 year ago
Get a solution of potassium iodide and add hydrogen peroxide to it, then add concentrated HCl to it to create a suspension of I2. Then filter the I2, then purify it by vaporization re-crystallization
SierraAlphaSierra 1 year ago
Comment removed
SierraAlphaSierra 1 year ago
It's sorcery...
PauldChemist 1 year ago