grignard reaction spring 09
TRANSCRIPT
Grignard Reaction: Grignard Reaction: PreparationPreparation
of Triphenylmethanolof Triphenylmethanol
BackgroundBackground
Grignard reagents are highly reactive organometallic reagents
generated by treating alkyl or aryl halides with magnesium metal in the
presence of an anhydrous ether.
The reaction proceeds like a strong base reaction.
This reagent was discovered by Victor Grignard around 1900.
R'-X + Mg [ R'-X ]- + Mg+ R' - MgX
- +
BackgroundBackground A Grignard reagent is capable of reacting with many different substrates
such as carbonyl compounds, alkyl halides and other organometallic reagents.
The addition of Grignard reagents to carbonyl compounds such as
aldehydes, ketones, and esters yields the corresponding secondary and
tertiary alcohols.
The Grignard reaction results in the formation of a carbon-carbon bond.
Grignard reagents are extremely strong bases that can react violently with
hydroxylic compounds such as water or alcohols:
Experimental TechniquesExperimental Techniques
C
O
OCH3+MgBr COMgBr
3
In the laboratory, initiation of the Grignard reaction is sometimes very slow.
Because of the presence of air, a coating of magnesium oxide forms on the
magnesium metal turnings.
To initiate the reaction, adding a small crystal of iodine or a drop of
dibromoethane can help to clean the surface of the magnesium.
Today's experiment is preparation of triphenylmethanol using a Grignard
reagent.
COMgBr
3
H2SO4COH
3
BrMg
EtherMgBr . 2Et2O
MgBr . 2Et2O + C
O
H3CO
Mechanism:
CH3CO
OBr-Mg
+ 2
MgBr . 2Et2O CO
+
+ BrMgOCH3C O MgBr
- +
Water sensitive chemical reactions require:
• 1. thoroughly dried glassware (no visible water!)
• 2. rigorously dried, anhydrous grade reagents
• 3. heat gun dried glassware (eliminate invisible water!)
• 4. a drying tube packed with a drying agent (CaCl2)
• 5. a nitrogen or argon line supplying a dry, inert atmosphere (not today)
C O MgBr C O HH3O+- +
Experimental Procedures
Cautions:
NO washing glassware with water – today! Use acetone if necessary.
Et2O (diethyl ether) is extremely flammable!!!!
Adequately grease all joints to avoid leakage of fumes.
Use only fresh (new) anhydrous diethyl ether.
The boiling point of diethyl ether is 35 ºC so DO NOT set max setting for the
temperature controller. USE 40 ºC water bath set on top of heating mantle.
Also, dry your 10 mL graduated cylinder and 100 mL Erlenmeyer flask with
the heat gun before use and tightly cover with aluminum foil.
Remove the magnesium oxide from magnesium metal surface using mortar and pestle.
No boiling chips with the Mg.
Assemble as shown on right, except need to add drying tubes. Your TA will show you how to assemble the drying tubes with CaCl2 as the drying agent.
USE WARM WATER BATH 40 ºC as heat source, using the large beaker. Place the bath on wire gause on top of the heating mantle. Monitor the temperature during the reaction.
DO NOT use Aluminum Foil around the set-up!
Remove the heat source when you open the reflux set up to the air.
Do not use the hot plate!!!
Equipment Set-UpEquipment Set-Up
Drying columns are to be placed at the opening of the addition funnel and the condensor
1. Grignard Reagent Preparation:1. Grignard Reagent Preparation:
100 mL RB flask containing 2 grams magnesium metal
A water-cooled condenser keeps ether (Et2O) vapors from escaping
Dry the entire assembly from the
bottom to top with your heat gun.
Put drying tubes in place while the
equipment is hot.(AFTER HEATING)
TA provides 9 mL bromobenzene.
Then add bromobenzene and 50
mL Et2O into the additional funnel.
Add just enough of the solution of
bromobenzene in ether to cover Mg
then let the solution sit for 5 min to
initiate reaction. Warm with hands.
When the reaction begins (cloudy or
grayish) you see bubbles in solution.
If no reaction begins after 5 minutes,
go get your TA.
If the reaction doesn’t start: TA adds 3-5 drops dibromoethane or a couple of crystals I2.
Continue to monitor the reaction.
Once reaction begins, add the remaining solution of bromobenzene in Et2O (NOT too slowly and NOT all at once) by steady dripping.
Maintain a gentle reflux for 30 minutes – the applied heat will expedite the reaction.
Monitor the 40 ºC warm water bath to avoid overheating the system.
1. Grignard Reagent Preparation:1. Grignard Reagent Preparation:
2. Triphenylmethanol Preparation:2. Triphenylmethanol Preparation: Cool RMgX solution in ice bath for 5 min before
going to the next step.
You will use the existing set-up for the next step.
DO NOT EXPOSE SOLUTION TO AIR!!!
Add 5 g methyl benzoate and 15 mL Et2O into
the addition funnel. Slowly add from the funnel to the cooled solution. Reflux for 30 min with 40 ºC warm water bath.
RMgX
Prepare 25 grams crushed ice and 50 mL
10% H2SO4 then add them into your E.flask. When you finish refluxing the reaction
mixture for 30 min, pour it into that E.flask.
(O - is protonated and the bases are neutralized.)
3. Quenching:
Stir or swirl to dissolve lumps in your E.flask – you may use a
stirring rod to gently break up lumps.
Transfer the solution to a separatory funnel, then drain the aqueous
layer through the stopcock. Keep the top layer (ether layer)!!!!!!
Aqueous layer- Discard
Wash ether layer with saturated NaCl (1/3 volume of ether layer).
Dry ether layer over Na2SO4 then filter through cotton plug in glass funnel
into preweighed round bottomed flask.
Use rotavap to dry the diethyl ether solvent.
SAVE small sample of crude product for TLC.
Might see fine layer between top and bottom phases so it should be removed through stopcock (may be metal bits)
4. Work-up of the Reaction:
Triturate residue in distilling flask with cold petroleum ether (not
diethyl ether).
…to reduce to fine particles or powder by rubbing, grinding, bruising, or the like.
Decant petroleum ether (SAVE small sample of ether for TLC).
Recrystallize from isopropyl alcohol to obtain the pure product.
Perform TLC on the crude product, petroleum ether extract, and pure
product by using diethyl ether to dissolve all solids and using petroleum
ether as your eluent. Measure the mass and mp, and calculate % yield.
Grading is 50% for write up and 50% for results.
5. Characterization of Your Product:
4. Work-up of the Reaction (Week 2):