Chapter 1.

Introduction

The Wittig reaction is one of the most widely used methods for forming carbon-carbon double bonds, because it is easy to carry out and often gives high yields of pure product. It is named after its discoverer, German chemist Georg Wittig.1 The reaction involves the addition of a phosphorus ylide to an aldehyde or ketone to form a double bond with the elimination of phosphine oxide.

1. Wittig, G. Pure & Appl. Chem.1964, 9, 245–254

The Wittig Reaction
false
false

Reaction

Lab Objective

Ths is a group experiment. You will work in a small group to carry out variations of the Wittig reaction and to answer the focus question in the next tab. Each group will perform the Wittig reaction with commercially available ylide (carbethoxymethylene)triphenylphosphorane and one of the three aldehydes (2-, 3-, or 4-chlorobenzaldehyde) below. Be sure to complete the group design sheet.

Procedure

Dissolve chlorobenzaldehyde (50 mg) in dichloromethane (3 mL) in a dram vial equipped with a stir vane. Add 1.2 mol equivalents of the ylide (mol. wt. 348.38 g/mol) portion-wise while stirring. Stir at room temperature for two hours while monitoring the reaction by TLC. When the reaction is complete evaporate the dichloromethane solvent with a stream of N2 gas and dissolve the reaction mixture in 25% diethyl ether in hexanes (2–3 mL). Note the formation of a white precipitate, which is triphenylphosphine oxide. Transfer the solution to a clean vial and evaporate the majority of the solvent. Purify the crude product using a microscale wet column. Group members will work together to modify the purification procedure, as necessary, based on the alternative solvent selected, and to identify appropriate solvents for use in TLC and purification by microscale wet column chromatography.

Reagents

Compound CAS Number mol. wt. (g mol-1) Concentration or Density m.p. or b.p. (°C) SAFETY
2-chlorobenzaldehyde 89-98-5 140.57 1.248 g/mL 209–215 (bp) corrosive
3-chlorobenzaldehyde 587-04-2 140.57 1.241 g/mL 213–214 (bp) toxic
4-chlorobenzaldehyde 104-88-1 140.57 -- 213–214 (bp) toxic
dichloromethane 75-09-2 84.93 1.325 g/mL 39.8–40 (bp) health hazard
(carbethoxymethylene) triphenylphosphorane 1099-45-2 348.37 -- 128–130 (mp) --