LAB – PREPARATION OF ESTERS NAME________________ An ester is a chemical compound that is formed when an organic acid reacts with an alcohol. Esters frequently have distinctive odors, and are found in the flavorings of many fruits and plants. The reaction between an organic acid and an alcohol is shown in Figure 1. O O + R1 C O H O + R2 H R1 + Organic Acid C + Ester Alcohol O H H R2 O Water Figure 1. The Reaction Between An Organic Acid and Alcohol to Form an Ester and Water In the diagram, R1 and R2 represent organic groups such as hydrocarbons. The -H group from the acid combines with the -OH from the alcohol producing water molecules. The R2 group from the alcohol then attaches to the oxygen on the acid forming the ester. The reaction is catalyzed by adding some concentrated sulfuric acid, H2SO4. Concentrated sulfuric acid is a strong dehydrating agent, and helps the reaction by removing the water molecules as they are formed. If acetic acid and ethanol are reacted, the reaction shown in Figure 2 occurs. The product is called Ethyl acetate. The systematic name for acetic acid is ethanoic acid, and the product is also known as ethyl ethanoate. O O CH3 C O Acetic Acid H + + H O CH2 CH3 Ethanol CH3 C O CH2 CH3 Ethyl Ethanoate + + H2O Water Figure 2. The Reaction between Acetic Acid (Ethanoic Acid) and Ethanol In this experiment we will prepare small quantities of several esters. The esters will be identified by their distinctive odors. Then we will prepare a larger quantity of the ester ethyl acetate (ethyl ethanoate) and purify it by distillation. Safety Most of the organic acids and alcohols have slightly noxious vapors. Butyric acid and Glacial Acetic Acid should be used in the hood. Sulfuric acid is highly corrosive to clothing and skin. Treat it with great care Glacial Acetic Acid has very irritating fumes. Deal with it in a fume hood only Chemicals Part 1: Various combinations of acids and alcohols will be used which may contain the following: Organic acids: Formic acid (methanoic acid, HCOOH), Acetic acid (ethanoic acid, CH3COOH), Butyric acid (butanoic acid, C3H7COOH), Salicylic acid (C6H4(OH)COOH) , Anthranilic acid (C6H4(NH2)COOH) Organic alcohols: Methyl alcohol (methanol, CH3OH), Ethyl alcohol (ethanol, CH3CH2OH), Butyl alcohol (n-butanol, n-amyl alcohol, C4H9OH), Isopentyl alcohol (isopentanol, isoamyl alcohol, [(CH3)2CHCH2CH2OH], Octyl alcohol (octanol, CH3(CH2)7OH) Sulfuric acid, concentrated (18 M) Baking soda, NaHCO3, to neutralize acid spills LAB – PREPARATION OF ESTERS NAME________________ Part 2: Acetic acid, concentrated, 17.4 M (glacial) Sulfuric acid, concentrated (18 M) Baking soda, NaHCO3, to neutralize acid spills Ethanol (ethyl alcohol, denatured alcohol) Saturated Sodium carbonate, Na2CO3 Equipment Part 1: Test tubes, 13- x l00-mm Beaker, 250-mL Part 2: Erlenmeyer flask, 125-mL Condenser with fittings Thermometer Beaker, 600-mL for water bath Ring Stand Separatory Funnel 50 mL beaker Beaker,400-mL Hot plate or Bunsen burner, ring and wire gauze Boiling stones Distilling flask Clamps Hot plate, or Bunsen burner, ring and wire gauze Test tube, 18 x 150-mm and cork stopper Stoppers Procedure Part 1. Microscale preparation of some esters. 1. Prepare a hot water bath. Fill a 400-mL beaker about half full with water. Heat the water to boiling, and then turn off the flame or the hot plate. 2. Prepare the ester. Place 10 drops of one of the organic acids in a dry test tube. If using a solid acid, use a small spatula full, about 0.08 g. Add 10 drops of one of the alcohols. Add 2 drops of concentrated sulfuric acid. Put the test tube into the beaker of hot water and let stand for five minutes. The odor of the ester is more easily detected when the ester is mixed in some water. Never try to directly smell the ester while it is still hot. Put about 100 mL of water in a 250-mL beaker. Pour the contents of the test tube into the beaker and swirl it to mix the contents. Carefully smell the ester after it is mixed with water by waving some of the vapors toward your nose. Can you identify the odor? In your laboratory record, give the name and formula of the acid and alcohol used, give the name and formula of the ester produced, and identify the odor of the ester if you can, or describe its odor. Prepare as many of the esters as your teacher directs. Part 2. Preparation and purification of ethyl acetate (ethyl ethanoate). 1. Preparation of ethyl acetate. In a 125-mL Erlenmeyer flask, place 10 mL ethanol, 12 mL glacial acetic acid, 15 drops of concentrated sulfuric acid (18 M), and a boiling stone. Fill the 600 mL beaker about 2/3 full of water, place it on the heat source, and heat it to boiling. Obtain a condenser, making sure the stopper on it fits your 125 mL flask. Using the ring stand and a clamp, clamp the condenser in a vertical position, with the bottom of the condenser inside the flask just below the stopper. When the condenser is inserted in this manner it acts as a reflux condenser, allowing the vapors of the mixture to condense and return to the reaction vessel. Slowly run cold water through the condenser, in at the bottom and out the top. Gently lower the apparatus so the flask sits in the hot water bath. Once the mixture in the Erlenmeyer flask is gently boiling, allow it to reflux for about 10 minutes. Cool the mixture. LAB – PREPARATION OF ESTERS NAME________________ 2. Distillation of ethyl acetate. Pour the mixture (including the boiling stone) into a distilling flask and connect the condenser to the side arm of the flask. Insert a thermometer in a stopper in the top of the flask with the thermometer bulb even with the side arm of the condenser. Heat the bottom of the distilling flask in the hot water bath until no more distillate is coming over. Record the temperature at which the distillation begins (the first drop comes out of the condenser) and the temperature at the end of the distillation (dripping stops and the temperature changes again). The boiling point of ethyl acetate is 77oC. Compare this to your distillation temperature. 3. Separation of the ethyl acetate from alcohol. Make sure the 50 mL beaker is clean and dry. Measure the mass of the beaker and set it aside. During the distillation some of the unreacted alcohol will distill along with the ethyl acetate. Ethanol is very soluble in a saturated solution of sodium carbonate, while the ethyl acetate is only slightly soluble. Pour about 10 mL of saturated sodium carbonate solution into a separatory funnel. Add the distillate, stopper and shake for a minute. Turn the separatory funnel upside down and open the stopcock to vent the system. Shake a second time, again inverting the separatory funnel and venting the mixture. Separate the two layers by holding the funnel right side up and opening the stopcock until the first layer comes out. The layer containing the unreacted alcohol/sodium carbonate waste is more dense, so it will be on the bottom of the separatory funnel, and will therefore come out first. Dispose of this layer down the sink. Open the stopcock again, letting the other layer (ethyl acetate) go into the 50 mL beaker, and measure the mass of the ethyl acetate produced. Pour a little of the ethyl acetate into 200 mL of water and cautiously note its odor. Disposal The solutions used to prepare the esters can be safely washed down the sink with a large amount of water according to Flinn Suggested Disposal Method #26b. The ethyl acetate can be saved and used as a solvent, or can be evaporated in the fume hood according to Flinn Suggested Disposal Method #18a. See the appendix. Discussion In your laboratory report include all of your observations, and answer the following questions: 1. Write a complete, balanced reaction for the reaction you did in Parts 1 & 2. Make sure to include the names of each of the substances as well as the Lewis Structure. See the “materials” list on page 1 of this lab for formulas of reactants. Make a note of the odors produced by your esters. 2. The density of ethanol is 0.79 g/mL. The density of acetic acid is 1.05 g/mL. Assuming that each substance was a pure substance, calculate the moles of each reactant used in part 2. Determine the limiting reactant, and calculate the theoretical yield of ethyl acetate. Use the actual yield to determine the percent yield of product. 3. Why was sulfuric acid added to the mixture of acid and alcohol? LAB – PREPARATION OF ESTERS NAME________________