Synthesis of Isopentyl Acetate



Similar documents
Experiment #7: Esterification

CH243: Lab 4 Synthesis of Artificial Flavorings by Fischer Esterification

Synthesis of Fragrant Esters

Table 1. Common esters used for flavors and fragrances

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

Separation by Solvent Extraction

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

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*

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

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

Synthesis of Aspirin and Oil of Wintergreen

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

Experiment 8 Preparation of Cyclohexanone by Hypochlorite Oxidation

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

ISOLATION OF CAFFEINE FROM TEA

Experiment 5 Preparation of Cyclohexene

Isolation of Caffeine from Tea

Experiment 8 Synthesis of Aspirin

PREPARATION AND PROPERTIES OF A SOAP

EXPERIMENT 7 Reaction Stoichiometry and Percent Yield

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

But in organic terms: Oxidation: loss of H 2 ; addition of O or O 2 ; addition of X 2 (halogens).

# 12 Condensation Polymerization: Preparation of Two Types of Polyesters

Unit 7A - The Mole. We Need to Count atoms. The Mole and Molar Mass

Avg / 25 Stnd. Dev. 8.2

Experiment #8 properties of Alcohols and Phenols

In this experiment, we will use three properties to identify a liquid substance: solubility, density and boiling point..

Extraction: Separation of Acidic Substances

Properties of Acids and Bases

14 Friedel-Crafts Alkylation

Chapter 5 Classification of Organic Compounds by Solubility

EXPERIMENT 12: Empirical Formula of a Compound

Laboratory 22: Properties of Alcohols

Alcohols An alcohol contains a hydroxyl group ( OH) attached to a carbon chain. A phenol contains a hydroxyl group ( OH) attached to a benzene ring.

Reminder: These notes are meant to supplement, not replace the laboratory manual. SN1 Reaction Notes

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

Properties of Acids and Bases

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

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

Chapter Three: STOICHIOMETRY

Ch17_PT MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

CHEM 105 HOUR EXAM III 28-OCT-99. = -163 kj/mole determine H f 0 for Ni(CO) 4 (g) = -260 kj/mole determine H f 0 for Cr(CO) 6 (g)

Assessment Schedule 2013 Chemistry: Demonstrate understanding of the properties of organic compounds (91391)

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

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

Making Biodiesel from Virgin Vegetable Oil: Teacher Manual

Aldehydes can react with alcohols to form hemiacetals Nucleophilic substitution at C=O with loss of carbonyl oxygen

Experiment 8 - Double Displacement Reactions

AN EXPERIMENT IN ALCHEMY: COPPER TO SILVER TO GOLD 2005, 2000, 1996 by David A. Katz. All rights reserved

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

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

Formulas, Equations and Moles

Non-polar hydrocarbon chain

Teacher Demo: Turning Water into Wine into Milk into Beer

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

Oxidation of Cyclohexanol to Cyclohexanone

1. The functional group present in carboxylic acids is called a A) carbonyl group. B) carboxyl group. C) carboxylate group. D) carbohydroxyl group.

DETERMINING THE ENTHALPY OF FORMATION OF CaCO 3

Chapter 22 Carbonyl Alpha-Substitution Reactions

Chemical Changes. Measuring a Chemical Reaction. Name(s)

The Empirical Formula of a Compound

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

Properties of Alcohols and Phenols Experiment #3

Carboxylic Acid Derivatives and Nitriles

Fermentation and Ester Taints. Anita Oberholster

Lab 25. Acid-Base Titration and Neutralization Reactions: What Is the Concentration of Acetic Acid in Each Sample of Vinegar?

Oxidation States of Copper Two forms of copper oxide are found in nature, copper(i) oxide and copper(ii) oxide.

Organic Chemistry Lab Experiment 4 Preparation and Properties of Soap

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

DYES AND DYEING 2003 by David A. Katz. All rights reserved. Permission for classroom use provided original copyright is included.

Where the exp subscripts refer to the experimental temperature and pressure acquired in the laboratory.

Distillation of Alcohol

Chemical Equations & Stoichiometry

General Chemistry I (FC, 09-10) Lab #3: The Empirical Formula of a Compound. Introduction

Recovery of Elemental Copper from Copper (II) Nitrate

Neutralizing an Acid and a Base

Review - After School Matter Name: Review - After School Matter Tuesday, April 29, 2008

Lab #13: Qualitative Analysis of Cations and Anions

Carboxylic Acid Structure and Chemistry: Part 2

Designing An Experiment Using Baking Soda and Vinegar

Dehydrohalogenation of an Alkyl Halide

EXPERIMENT 6 (Organic Chemistry II) Identification of Ketones and Aldehydes

5.0 EXPERIMENT ON DETERMINATION OF TOTAL HARDNESS

Unit 6 The Mole Concept

Preparation of frequently used solutions

Mixtures and Pure Substances

Hands-On Labs SM-1 Lab Manual

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

NOMENCLATURE OF ORGANIC COMPOUNDS 2010, 2003, 1980, by David A. Katz. All rights reserved.

EDEXCEL INTERNATIONAL GCSE CHEMISTRY EDEXCEL CERTIFICATE IN CHEMISTRY ANSWERS SECTION C

MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

CHEMICAL DETERMINATION OF EVERYDAY HOUSEHOLD CHEMICALS

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

Steam Distillation of Lemongrass Oil

Austin Peay State University Department of Chemistry CHEM 1021 TESTING FOR ORGANIC FUNCTIONAL GROUPS

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

IB Chemistry. DP Chemistry Review

Stoichiometry Limiting Reagent Laboratory. Chemistry 118 Laboratory University of Massachusetts, Boston

Electrophilic Aromatic Substitution

Transcription:

Experiment 8 Synthesis of Isopentyl Acetate Objectives To prepare isopentyl acetate from isopentyl alcohol and acetic acid by the Fischer esterification reaction. Introduction Esters are derivatives of carboxylic acids in which the acyl carbon bears an alkoxy substituent ( OR) rather than the hydroxyl substituent ( OH) of the acid. Simple esters tend to have pleasant, fruity odors and are widely used as flavors and fragrances. Table 1 below shows the flavors or fragrances associated with some esters. Ester Isopentyl acetate Isobutyl formate Isobutyl propionate n propyl acetate Methyl butyrate Methyl anthranilate Methyl salicylate Ethyl butyrate Ethyl phenyl acetate Benzyl acetate Benzyl butyrate Octyl acetate Scent Banana Raspberry Rum Pear Apple Grape Wintergreen Pineapple Honey Peach Cherry Orange Table 1 Esters and their corresponding scents 55

The volatile compounds in natural fruits and flowers are usually complex mixtures of compounds, where esters frequently predominate. Many artificial flavorings contain esters or mixtures of esters. For example, the volatile oil of ripe pineapple contains several esters, as shown in Table 2. Table 2 Composition of the volatile oil of ripe pineapple Isopentyl acetate is known as banana oil because of its characteristic odor. This ester has also been shown to be one of the active substances in the alarm pheromone of the honeybee. When a honeybee worker stings an intruder, an alarm pheromone is secreted along with the venom. The pheromone causes other bees to become aggressive and attack the intruder. Esterification generally refers to the formation of esters from alcohol and carboxylic acids, as shown in Equation 1. carboxylic acid The reaction proceeds by way of a nucleophilic substitution at the acyl carbon of the carboxylic acid. When catalyzed by a strong acid, usually sulfuric acid or p toluenesulfonic acid, the reaction is called the Fischer esterification. The reaction mechanism is shown in Equations 2 6. Equation 2 shows the protonation of the acyl oxygen of the carboxylic acid. The protonation activates the acyl carbon toward nucleophilic attack. Equation 3 shows the nucleophilic attack at the acyl carbon by the oxygen atom of the alcohol to form a tetrahedral intermediate. Equation 4 shows a proton transfer to the hydroxyl oxygen of the carboxyl group. This protonation converts the hydroxyl group into the good leaving group, water. Equation 5 shows the loss of water forming the protonated 56

ester. Finally, Equation 6 shows the proton transfer to a base, resulting in the formation of the ester. Each step of the reaction mechanism is reversible and, therefore, the reaction reaches equilibrium. Le Chatelier s principle suggests that the amount of ester produced in an equilibrium reaction might be increased either by using an excess of one of the reactants or by removing one of the products. In practice, an excess of carboxylic acid or alcohol, whichever is more readily available, is added, and/or water is removed as the reaction proceeds. A waterabsorbing substance such as molecular sieves might be included in the reaction mixture, or the water might be removed as part of an azeotrope with benzene or toluene. The mechanism suggests that steric effects might be important in Equation 3, the step involving the attack by the alcohol at the acyl carbon of the carboxylic acid. Indeed, alkyl group 57

branching at the α or β carbon of the acid slows the rate of esterification. For example, the relative rates of esterification with methanol follow the order: Sterically hindered alcohols also react more slowly in the esterification reaction. The relative rates for esterification of alcohols with acetic acid follow the order: Fischer esterification is an example of an acyl transfer reaction. The acyl group from the acid is transferred to the alcohol. Acid chlorides and anhydrides also serve as acylating agents. Because acid chlorides and anhydrides contain good leaving groups, these compounds are very reactive toward nucleophilic substitution by an alcohol, as shown in Equations 7 8. The Fischer esterification is conducted at reflux. The purpose of reflux is to heat a reaction mixture at its boiling temperature to form products, without losing any of the compounds in the reaction flask. In practice, a condenser is set vertically into the top of the reaction flask. Any compound that vaporizes will condense when it enters the cool environment of the reflux condenser and will then drain back into the reaction flask. Reflux apparatus using glassware for a semimicroscale technique is used in the procedure. In this experiment, you will prepare isopentyl acetate by reacting an excess of acetic acid with isopentyl alcohol. You will use sulfuric acid to catalyze the reaction. After the reaction is complete, you will remove the excess acetic acid and sulfuric acid from the reaction mixture by extraction with sodium hydrogen carbonate. 58

Experimental Procedure 1) Mix isopentyl alcohol (5.4 ml, via burette) and glacial acetic acid (8.5 ml, via graduated cylinder) in a round bottom flask. Carefully add 20 drops of conc. H 2 SO 4 to the mixture. 2) Put in a few boiling chips and assemble the reflux apparatus (Figure 1). Figure 1 Reflux apparatus 3) After having your set up checked by the instructor, heat the reaction mixture under reflux conditions for 1 hour. 4) Cool the reaction mixture to room temperature. Transfer the mixture into a 125 ml separatory funnel and add cold water (25 ml). Extract and separate the aqueous layer. 5) Wash the organic layer twice with 5% NaHCO 3 (25 ml each time). 6) Wash the organic layer with saturated NaCl solution (25 ml). 7) Dry the organic layer with anhydrous Na 2 SO 4. Decant the crude ester into a clean 25 ml round bottom flask. Add a boiling chip. 8) Assemble a simple distillation apparatus. Distill the product and collect the 134 143 C fraction into a pre weighed test tube. 9) Weigh the product and calculate the yield. Submit the product to your instructor. Laboratory Safety Precaution 1) Wear safety goggles and lab coat at all times while working in the laboratory. 59

2) Isopentyl alcohol (3 methyl 1 butanol) is irritating. Glacial acetic acid is corrosive. Concentrated sulfuric acid is corrosive and oxidizing. Prevent eye, skin, and clothing contact. Avoid inhaling vapors and ingesting these compounds. 3) Neutralizing acids with sodium hydrogen carbonate generates CO 2 gas. Vent the separatory funnel frequently to avoid pressure build up. 4) Wash your hands thoroughly with soap or detergent before leaving the laboratory. 60

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