The multi-colored bowls on the side are acting as awesome molding for the ice.
But when push came to shove, I just went to another lab that had a REAL vacuum pump for their roto-vaps and stayed there. I even had a little friend while I did several filtrations to remove the DCU from the
So with as much of the DCU filltered out as I am willing to fight for, onward to step two.
Thus, for the past two hours I have been adding the obtained oil from the first reaction into a D-Lysine and sodium bicarbonate solution in a THF:water mixture. Now, we have some pretty colors. Before adding dropwise:
Notice the cloudiness. Now, add some oil in a THF solution (~140 ppm oil):
The cloudiness is gone. Sort of. It's definitely a lot less cloudy. Once all the oil has been added, you get this: [2]
Let this stir for about two hours and then bring the pH down to 2 by adding 0.5 M HCl dropwise to the reaction vessel. That's my next step before synthesis class begins at 7:30am. Woohoo!
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[1] The best technique to remove the greatest quantity was to wait a couple of hours to allow the DCU to crystallize and crash to the bottom of the flask. Apparently DCU makes pretty spindly white crystals when allowed to.
[2] Sorry for the blurry images. My brother was the photography major, so all the steady handedness I could have inherited went to him.
2 comments:
In the world of pretty colors, yellow is too common and too boring to count for much.
Unless it glows.
Well, when I added the acid to quench and crash the solution to pH 2, my lovely yellow-green became brown and then black as the THF was evaporated away.
The literature said the solid should be "off-white". Black is quite a bit off-white...
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