Friday, October 11, 2019
#15 Synthesis of Ethyl Salicylate from Salicylic Acid
#15 Synthesis of Ethyl Salicylate from Salicylic Acid ____________________________________________________________ _______________ Purpose: Salicylic acid is converted to the liquid ethyl salicylate by addition of ethanol. Yields of salicylic acid (week 1) and ethyl salicylate will be found, as well as the overall yield of the 2-step conversion of acetyl salicylic acid to ethyl salicylate. Introduction: Esters are formed from the reaction of acids and alcohols: O O || || R-C-OH + HO-Rââ¬â¢ > R-C-ORââ¬â¢ + H2O cid alcohol ester water The pleasant smelling oil of ethyl salicylate is made by reacting salicylic acid (week 1) with excess ethanol. An acid catalyst is also needed. salicylic acid (SA) ethanol ethyl salicylate (ES) The overall yield is determined from multiplying yields of the two reactions: 1. ASA + HCl(aq) >SA and 2. SA + ethanol > ES + water Apparatus The reaction takes place by refluxing (gentle boiling) in a 100-mL round bottom flask. This time the ice-cooled conde nser is essential, otherwise the ethanol reactant (b. . 79? C) would evaporate before the reaction was over. Melting points of acetyl salicylic acid and salicylic acid (dried from week 1) are taken with MelTemp devices. If you have never used one your instructor will demonstrate. MelTemp C OH O OH H OC H2CH3 H + C OH O + OCH2CH3 + H2O2 Procedure Part A: Esterification of Salicylic Acid with Ethanol 1. Before starting remove a spatulaful (that will be < 0. 1 g) of SA (salicylic acid) and place in a labeled plastic vial to use for melting points. 2. In a 100 mL round bottom flask, mix at least 5 g dry salicylic acid (0. 43 mol) with 20 mL 100% ethanol. The salicylic acid should be weighed out to two decimal places and recorded on the data sheet. The alcohol is in excess. It can be poured from a graduated cylinder, and should not be scaled down. Note: Use more salicylic acid if you have more from the first week. You should have between 7 and 8 g. Adjust amount of ethanol accordingly, s ay to 30 mL. 3. Add approximately 1/2 gram of boric acid catalyst that we use as a substitute for concentrated sulfuric acid in this particular esterification. 4. Place entire assembly on a hot plate and heat until the alcohol is boiling. A setting of around 3 on the hot plate can be tried and then adjusted up or down as needed. You may need to add more ice. Note: While the refluxing is taking place, you can work on Part B, in which the materials you have already made are characterized by taking their melting points. 5. Reflux for a minimum of 1 hour and 30 minutes or longer as time allows. Cool until the flask is no longer hot, then in an ice bath, until the mixture is at room temperature. Transfer to a clean separatory funnel. 6. Add 10 mL 2M NaOH(aq) . The mixture turns milky as approximately 2-3 mL of ester appears at once as an insoluble bottom layer. Ethyl salicylate is an oily liquid with a density of 1. 1 g/mL. Wait a few minutes until the cloudy emulsion begins to clear up. You can estimate the yield by marking the funnel and measuring an equal volume of water. Record this. You will probably get about 1/2 mL for every 1 gram of salicylic acid. 7. You should be able to recover about 1. 5 mL of the ester oil by separating the layers using a separatory funnel. Allow the bottom layer to pour into a vial. This layer contains mostly ethyl salicylate and should have a very pleasant odor, something like wintergreen. It will also include a little NaOH solution and thus will not be clear and sparkling. If you have enough liquid you can attempt the next step. 8. Dry by mixing with a small amount of anhydrous magnesium sulfate. See your instructor to get help with this. Pour off the clear ethyl salicylate. 3 Part B: Melting Points 1. Measure melting points of the dry acetyl salicylic acid and the salicylic acid using the small samples reserved for this purpose. Record on data sheet and compare with literature values. Part C: Yields 1. The 50 aspirin tablets contained 16. 25 g ASA. To estimate yields in your next 2 reactions, assume the wet ASA you used contained 12 g ASA. Then from the mass of dry salicylic acid obtained find the yield of salicylic acid. 2. Convert the volume of ethyl salycilate to grams using the density, 1. 1 g/mL. Record. Estimate yield of ethyl salicylate from salicylic acid and record, retaining just 2 significant figures. 3. Find the overall yield of the two-step process: Step 1: Acetyl salicylic acid (ASA) to salicylic acid (SA) Step 2: Salicylic acid (SA) to ethyl salicylate (ES)4 Data and Results (yield of ethyl salicylate) Name(s) ____________________________________________________________ ____ Part B: Melting Points Compound Measured Melting Point (? C) Literature Value (? C) Acetyl Salicylic Acid 134 ââ¬â 135 Salicylic Acid 158 ââ¬â 160 Yields: Assuming ASA (from extraction of 50 aspirin tablets) = 12 g SA (from hydrolysis of ASA) ______ g Reactant SA esterified: ______ (usually most of the amount above) Approximate volume of ethyl salicylate: _______ mL (density ES = 1. 1 g/mL) Mass ethyl salicylate ________g Maximum g SA: Maximum g ES: Enter amounts where indicated in the table below and find the yields. Reaction Reactant > Product Mass Reactant (g) Mass Product (g) Maximum Mass Product (g) Actual Yield % ( 2 sig. figures) ASA > SA 12 g ASA* g SA g SA SA > ES g SA g ES g ES *Assuming 75% extraction yeild. Overall Yield for 2 steps (product of 2 yields above) : Questions: 1. Recalculate the overall yield for a three-step process including the 75% extraction. 2. The synthesis of a new drug may require as many as 30 steps, some of which produce much less than 90% yields. Comment on this (without doing any calculations). ____________________________________________________________ _______________5 Instructorââ¬â¢s Guide Ethyl Salicylate Part B: Melting Points Compound Measured Melting Point (? C) Literature Value (? C) Acetyl Salicylic Acid 134 134 ââ¬â 135 Salicylic Acid 159 158 ââ¬â 160 Yields: Assuming ASA (from extraction of 50 aspirin tablets) = 12 g SA (from hydrolysis of ASA) 7. 3 g Reactant SA esterified: 7. 0 g (usually most of the amount above) Approximate volume of ethyl salicylate: 3. 0 mL (density ES = 1. 1 g/mL) Mass ethyl salicylate 3. 3 g Maximum g SA: 10 g ASA x 1 mol ASA x 1 mol SA x 138 g SA = 9. 2 g SA 180 g ASA 1 mol ASA 1 mol SA Maximum g ES: 7. g SA x 1 mol SA x 1 mol ES x 166 g ES = 8. 4 g ES 138 g SA 1 mol SA 1 mol ES Enter amounts where indicated in the table below and find the yields. Reaction Reactant > Product Mass Reactant (g) Mass Product (g) Maximum Mass Product (g) Actual Yield % ( 2 sig. figures) ASA > SA 12 g ASA* 9. 2 g SA 7. 3 g SA 79% SA > ES 7. 0 g SA 8. 4 g ES 3. 3 g ES 39% *Assuming 75% extraction yeild. Overall Yield for 2 steps (product of 2 yields above): 0. 79 x 0. 39 x 100 = 31% Questions: 1. Recalculate the overall yield for a three-step process including the 75% extraction. 2. The synthesis of a new drug may require as many as 30 steps, some of which produce much less than 90% yields. Comment on this (without doing any calculations). ____________________________________________________________ _______________ 1. Overall yield = 0. 75 x 0. 79 x 0. 39 x 100 = 23% 2. The yield would be very very small, making this an expensive process. 6 Instructorââ¬â¢s Guide Ethyl Salicylate(cont'd) Time: maximum Equipment and Materials: per group Items Number Comment stir/hot plates 1 stir bars 1 00-mL round bottom flasks 1 Weighing papers 1 pack per class Ice 50-mL graduates 1 Top loading balance 2 per class With power supply MelTemps 2 per class thermometer 2 per class For Meltemp m. p. tubes (closed) 50 per class 250-mL beakers 1 for water heating bath Microscale glass clamp 1 (yellow) ice-cooled condensers 1 Ring stand 1 Ring stand clamp 1 separatory funnels 1 boric acid 5 g per class antifungal agent spoon spatulas 1 100% ethanol 1 L per class 2 M NaOH 50 mL magnesium sulfate 10 g per class Epsom salts Safety glasses 1 per student Rubber gloves 1 box per class7 Ideas/ Information We make ethyl rather than methyl salicylate, because methanol is toxic. Under Part A. 3. Note: This experiment was designed to be done using household chemicals. Although Science in Motion can provide concentrated sulfuric acid, we have decided that it is too dangerous to handle. Under Part C. 1. Note: Repeated extractions were done in our lab. They all gave about 75% yields and about 12 g dry ASA. 2M NaOH solution could be prepared by adding solid NaOH to a volumetric flask and then diluting with distilled water to the mark on the flask. Molarity mol/L g NaOH for 1 L solution g NaOH 500 mL solution 2 80 40
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