CH243: Lab 4 Synthesis of Artificial Flavorings by Fischer Esterification



Similar documents
Synthesis of Isopentyl Acetate

Experiment #7: Esterification

Table 1. Common esters used for flavors and fragrances

Synthesis of Fragrant Esters

This compound, which contains two carbon atoms with a C-OH structure on one end of the molecule is ethanol, commonly called ethyl alcohol.

EXPERIMENT 9 (Organic Chemistry II) Pahlavan - Cherif Synthesis of Aspirin - Esterification

Synthesis of Aspirin and Oil of Wintergreen

H H H O. Pre-Lab Exercises Lab 6: Organic Chemistry. Lab 6: Organic Chemistry Chemistry Define the following: a.

Saturated NaCl solution rubber tubing (2) Glass adaptor (2) thermometer adaptor heating mantle

4026 Synthesis of 2-chloro-2-methylpropane (tert-butyl chloride) from tert-butanol

Experiment 8 Preparation of Cyclohexanone by Hypochlorite Oxidation

ISOLATION OF CAFFEINE FROM TEA

Experiment 5 Preparation of Cyclohexene

Experiment 3: Extraction: Separation of an Acidic, a Basic and a Neutral Substance

Experiment 8 Synthesis of Aspirin

Separation by Solvent Extraction

Page 1 of 5. Purification of Cholesterol An Oxidative Addition-Reductive Elimination Sequence

EXPERIMENT FIVE. Preparation of Cyclohexene from Cyclohexanol: an Elimination Reaction DISCUSSION

CHM220 Nucleophilic Substitution Lab. Studying S N 1 and S N 2 Reactions: Nucloephilic Substitution at Saturated Carbon*

CHEM 2423 Recrystallization of Benzoic Acid EXPERIMENT 4 - Purification - Recrystallization of Benzoic acid

ACID-BASE TITRATIONS: DETERMINATION OF CARBONATE BY TITRATION WITH HYDROCHLORIC ACID BACKGROUND

Isolation of Caffeine from Tea

EXPERIMENT 3 (Organic Chemistry II) Nitration of Aromatic Compounds: Preparation of methyl-m-nitrobenzoate

Preparation of frequently used solutions

GRIGNARD REACTION: PREPARATION OF TRIPHENYLMETHANOL (12/22/2009)

Organic Chemistry Lab Experiment 4 Preparation and Properties of Soap

Acid-Base Extraction.

Distillation Experiment

PECTINS. SYNONYMS INS No. 440 DEFINITION DESCRIPTION. FUNCTIONAL USES Gelling agent, thickener, stabilizer, emulsifier CHARACTERISTICS

Synthesis of tetraamminecopper(ii) sulfate, [Cu(NH 3 ) 4 ]SO 4 The reaction for making tetraamminecopper(ii) sulfate and some molar masses are:

14 Friedel-Crafts Alkylation

experiment5 Understanding and applying the concept of limiting reagents. Learning how to perform a vacuum filtration.

CHEMISTRY 338 THE SYNTHESIS OF LIDOCAINE

PREPARATION OF ACETYLSALICYLIC ACID (ASPIRIN)

Dipeptide Synthesis. polarized light (Figure 2).

Mixtures and Pure Substances

Extraction: Separation of Acidic Substances

Liquid/liquid Extraction 63 LIQUID/LIQUID SEPARATION: EXTRACTION OF ACIDS OR BASES FROM NEUTRAL ORGANICS

Physical and Chemical Properties and Changes

EXPERIMENT Aspirin: Synthesis and NMR Analysis

F322: Chains, Energy and Resources Alcohols

Enantiomers: Synthesis, characterization, and resolution of tris(ethylenediamine)cobalt(iii) chloride Introduction:

OXIDATION-REDUCTION TITRATIONS-Permanganometry

CHEMICAL REACTIONS OF COPPER AND PERCENT YIELD KEY

EXPERIMENT 10: TITRATION AND STANDARDIZATION

Carolina s Solution Preparation Manual

EXPERIMENT Oil of Wintergreen: Synthesis and NMR Analysis

EXPERIMENT 2 (Organic Chemistry II) Pahlavan/Cherif Diels-Alder Reaction Preparation of ENDO-NORBORNENE-5, 6-CIS-CARBOXYLIC ANHYDRIDE

The most common active ingredient used in deodorants is aluminium chlorohydrate. But not all deodorants contain aluminium chlorohydrate:

Laboratory 22: Properties of Alcohols

Apparatus error for each piece of equipment = 100 x margin of error quantity measured

Properties of Alcohols and Phenols Experiment #3

The Synthesis of trans-dichlorobis(ethylenediamine)cobalt(iii) Chloride

METHOD 3510C SEPARATORY FUNNEL LIQUID-LIQUID EXTRACTION

GCE Chemistry PSA14: A2 Physical Chemistry Determine an equilibrium contstant

Reaction of Magnesium with Hydrochloric Acid (Gas Laws) Chemicals Needed:

PREPARATION AND PROPERTIES OF A SOAP

SYNTHESIS AND ANALYSIS OF A COORDINATION COMPOUND OF COPPER

Experiment #8 properties of Alcohols and Phenols

Amino Acids, Peptides, and Proteins

Making Biodiesel from Virgin Vegetable Oil: Teacher Manual

SEPARATION OF A MIXTURE OF SUBSTANCES LAB

Chapter 13 Carboxylic Acids, Esters, Amines, and Amides. Carboxylic Acids. Names and Sources of Some Carboxylic Acids. IUPAC Names

Steam Distillation of Lemongrass Oil

The Grignard Reaction. Preparation of Benzoic Acid

CHEM 2423 Extraction of Benzoic Acid EXPERIMENT 6 - Extraction Determination of Distribution Coefficient

Fermentation and Ester Taints. Anita Oberholster

Online edition for students of organic chemistry lab courses at the University of Colorado, Boulder, Dept of Chem and Biochem.

Name Lab #3: Solubility of Organic Compounds Objectives: Introduction: soluble insoluble partially soluble miscible immiscible

Organic Chemistry Lab 1 Experiment Packet Fall Quarter 07

Coordination Compounds with Copper (II) Prelab (Week 2)

Recrystallization II 23

oxidize 4-Cholesten-3-one

To see how this data can be used, follow the titration of hydrofluoric acid against sodium hydroxide below. HF (aq) + NaOH (aq) H2O (l) + NaF (aq)

Determination of a Chemical Formula

Determining the Identity of an Unknown Weak Acid

Organic Lab 1 Make-up Experiment. Extraction of Caffeine from Beverages. Introduction

Recovery of Elemental Copper from Copper (II) Nitrate

Dehydrohalogenation of an Alkyl Halide

Sulfa Antibiotics - Synthesis of Sulfanilamide

Experiment 3 Limiting Reactants

Laboratory 28: Properties of Lipids

Experiment 2: Recrystallization & Melting Point

Non-polar hydrocarbon chain

Experiment #10: Liquids, Liquid Mixtures and Solutions

Determination of Aspirin using Back Titration

SOLUBILITY OF A SALT IN WATER AT VARIOUS TEMPERATURES LAB

Syllabus CHM 2202 Organic Chemistry Laboratory II Spring 2011

Extraction Theory. Org I Lab W. J. Kelly. Liquid-liquid extraction is a useful method to separate components (compounds) of a mixture

MOLECULAR WEIGHT BY BOILING POINT ELEVATION

Experiment 12- Classification of Matter Experiment

Working with Hazardous Chemicals

POLYVINYL ALCOHOL. SYNONYMS Vinyl alcohol polymer, PVOH, INS No DEFINITION DESCRIPTION FUNCTIONAL USES CHARACTERISTICS

Syllabus OC18 Use litmus or a universal indicator to test a variety of solutions, and classify these as acidic, basic or neutral

Experiment 6 Qualitative Tests for Alcohols, Alcohol Unknown, IR of Unknown

Dissolving of sodium hydroxide generates heat. Take care in handling the dilution container.

Acids, Bases and Salts

Extraction of Caffeine from Energy Drinks

Identification of Unknown Organic Compounds

PURIFICATION TECHNIQUES

Transcription:

H243: Lab 4 Synthesis of Artificial Flavorings by Fischer Esterification PURPSE: To prepare esters by reaction of carboxylic acids and alcohols. To modify a known procedure to prepare an unknown. DISUSSIN: Volatile esters usually have pleasant, fruity odors. The characteristic fragrance and flavor of fruits and flowers are due, in most cases, to mixtures of esters. The mixture of esters responsible for a natural flavor is usually complex and difficult to duplicate. However, if the flavor is attributed to a major component then a synthetic ester of the same structure can be substituted for the natural flavor at a fraction of the cost. For this reason, esters are used in the food, flavor, and fragrance industries. A formula for artificial pineapple flavor is given below. The composition of the mixture is very important to duplicating the flavor; and it should also be pointed out that our perceptions of an ester s smell may depend on its dilution. ARTIFIIAL PINEAPPLE FLAVR Pure ompounds % Essential ils % allyl caproate 5 oil of sweet birch 1 isoamyl acetate 3 oil of spruce 2 isoamyl isovalerate 3 balsam Peru 4 ethyl acetate 15 volatile mustard oil 1 ethyl crotonate 5 oil cognac 5 ethyl butyrate 22 concentrated orange oil 4 terpinyl propionate 3 distilled oil of lime 2 caproic acid 8 butyric acid 12 acetic acid _5 81 Many esters can be conveniently prepared by refluxing a mixture of a carboxylic acid and an alcohol in the presence of a strong mineral acid such as sulfuric acid or hydrochloric acid. This reaction is shown by the following equilibrium equation: R H + H R' H + R R' + H 2 The acid catalyst increases the rate at which equilibrium is reached but does not affect the position of the equilibrium. In order to shift the equilibrium to the right and prepare the ester in reasonable yield two measures can be taken: 1) use a large excess of the alcohol, or 2) remove either the water or ester as it is formed. The most common method of the two, especially when the alcohol is inexpensive as is the case for methanol and ethanol, is to use an excess of the alcohol. This procedure is call Fischer Esterification. H243 Synthesis of Esters (3/11) 1 19

The structures and approximate smell of a few esters follow: Name Flavor Structure isoamyl acetate banana methyl butyrate n-propyl acetate isobutyl propionate ethyl butyrate octyl acetate apple pear rum pineapple oranges H 3 H 3 H 2 H 2 H 3 H 3 H 2 H 3 H 2 H 2 HH 3 H 3 H 2 H 2 H 3 H 3 H 2 H 2 H 3 H 3 H 2 HH 3 H 2 H 3 H 2 (H 2 ) 6 H 3 INSTRUTIN: In this experiment you are to synthesize an ester of your choice pretending that it has never before been made. A common practice in frontier organic synthesis is to model procedures for the preparation of a new compound after the procedures of a similar reaction. There are many sources for reaction procedures from which you can model your synthesis. Following are known procedures for preparation of two common esters. Your task is to synthesize one of a variety of esters by adapting one of these or another Fischer Esterification procedures to fit your own reaction. For starters determine the molar proportions you want to use in your reaction by modeling after those in the known procedures. The procedures given require refluxing. The advantage to refluxing is that a constant temperature is maintained in the flask and the reaction can reach equilibrium without any materials escaping at the higher temperature of the medium. As this is hypothetically a frontier synthesis of an ester having never before been made you will want to: Keep appropriate records of your research in your lab notebook. haracterize your product by using mp/bp, properties IR, NMR etc. as needed. Analyze the cost effectiveness of your reaction. Analyze the greenness of your synthesis using atom economy and comparative data as learned in previous experiments. H243 Synthesis of Esters (3/11) 2

SAMPLE PREDURES: 1. Isoamyl acetate (banana) H 3 H 3 H + H H 2 H 2 HH 3 H + H 3 H 3 H 2 H 2 HH 3 + H 2 1. Mix 6 ml of isoamyl alcohol and 10 ml of glacial acetic acid in a 100 ml round bottom flask. arefully add 1 ml of concentrated sulfuric acid while swirling. 2. Add either boiling chips or a stirring bar and assemble the apparatus for reflux. Gently reflux with stirring for 30 minutes. 3. Allow the flask to then cool at room temperature for about five minutes and then cool in an ice bath. 4. Pour the mixture into a separatory funnel and add 10 ml of cold water (made from ice and distilled water chilled in an ice bath). Shake the layers and allow them to separate. Remove and discard the lower, aqueous layer but keep the top organic layer. 5. Add another 10 ml portion of cold water to the organic oil, shake the layers and separate them again. Discard the aqueous layer but keep the top organic layer. 6. Wash the organic layer with 10 mls of saturated sodium bicarbonate (NaH 3 ), separate, and then wash once with it with 10 mls of saturated sodium chloride solution (Nal). 7. Transfer the organic layer to a 125 ml Erlenmeyer flask and dry it for five minutes over magnesium sulfate (MgS 4 ). Filter the dried solution. 8. Determine the weight of your crude product. If so instructed purify the banana oil by simple distillation. 9. alculate the yield, the % yield, and put the sample in a labeled vial to turn in. 2. n-propyl acetate (pear) H 3 H + H H 2 H 2 H 3 H + H 3 H 2 H 2 H 3 + H 2 1-3. Use the above recipe for banana flavor but use 8 mls of 1-propanol instead of the isoamyl alcohol. Use the same amounts of the other reagents. 4-6. Instead of washing with water, use 15 ml portions of saturated sodium chloride and then three 10 ml portions of saturated sodium bicarbonate, and finally again with 10 ml sodium chloride. 7-9. Same as above. H243 Synthesis of Esters (3/11) 3

H243 Synthesis of Esters (3/11) 4

Lab 4: Synthesis of Esters Prelab Questions: Name 1. n the back write out the step by step mechanism for formation of your ester. Include action of the catalyst. 2. A. What is the purpose for the saturated sodium bicarbonate in the purification steps? (be specific) B. Write the reactions of sodium bicarbonate with components of the product mixture. 3. A. Why do some procedures have you wash your product with a saturated sodium chloride solution? Explain what it is doing? B. Why do some procedures have you add anhydrous sodium sulfate or anhydrous magnesium sulfate to your product before distillation? Explain what these are doing? 4. Some esters can be isolated by distillation directly from the reaction mixture but some isolation of some esters require neutralization and extractions prior to purification by distillation. Explain why? H243 Synthesis of Esters (3/11) 5

H243 Synthesis of Esters (3/11) 6

Lab 4: Synthesis of Esters Postlab Questions: Name 1. Analyze the cost effectiveness of your reaction. Make a table of costs of reagents Determine the $ per ml or g of product produced. 2. Analyze the greenness of your synthesis using atom economy and comparative data as learned in previous experiments. H243 Synthesis of Esters (3/11) 7

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information