Introduction: This experiment involves an extraction of a natural product using the techniques of steam distillation. The principle component of oil of cloves is an aromatic compound, which is identified by thin layer chromatography (TLC).
Eugenol is widely used in dentistry, due to its analgesic, antiseptic balsamic qualities. It is ideal for curative for pulp hyperemia (the soft, sensitive substance underneath the enamel and dentine of a tooth) and pulp its. In dentistry eugenol is also used to cover cavities, fill canals, etc. It also keeps food fresh and kills off bacteria and viruses. Eugenol helps keep meat fresh and prevents stomach upset, diarrhea, and wound infections. In addition, it might play a part in relieving indigestion, controlling diarrhea, and healing cuts and bites.
Eugenol is the main active ingredient in cloves.
Procedure:
1. In a 250 mL round bottom flask, place 10.0g of ground cloves and 80 mL of water. Set up for a simple distillation
2. Heat to boiling and collect the distillate until you no longer see droplets of organic liquid coming out of the condenser (about 40 minutes).
3. Place the distillate in a separatory funnel and extract with three 10 mL portions of Dichloromethane
4. Combine the dichloromethane extracts and dry over Sodium Sulfate.
5. Examine the purity of the extract using thin-layer chromatography (TLC).
Spot a small sample of the extract using a capillary spotter about 1 cm from the end of TLC plate.
The Essay on Extraction of Eugenol
Eugenol is found in the essential oil of cloves and has distinct properties that make it an important product to both food and drug industries. (Bhimrao, et. al, 2004). To utilize many of eugenol’s characteristic properties, it is necessary to isolate this organic chemical from the other components of cloves. In this experiment, eugenol was isolated from a sample of cloves using a series of ...
6. Visualize using a UV light and mark the visualized spots with a pencil.
7. Record the number of spots and the Rf values from the spot(s).
8. While the plate is developing set up a clean and dry distillation set up and distil off most of the dichloromethane solvent.
9. The remaining solution of Eugenol in Dichloromethane can be removed using a disposable pipette and placed into a clean pre-weighted vial.
10. The vial can be heated on a steam bath under the hood to remove the small amount of dichloromethane.
11. The pure Eugenol should be weighted to determine the percent oil recovered based on the mass of cloves originally used.
Results:
Density of Eugenol: 1.34 g/mL
BP of Eugenol: 40°C
Initial mass of Eugenol: 18.545 g
Mass of vial: 18.0063 g
Mass of Eugenol Oil: 18.434 g
% Recovery
= (18.545 g – 18.434 g)/18.434 x 100 = 0.602%
Thin layer chromatography:
Rf=(Distance substance moved/Distance solvent moved)
Rf=(4.2/5.1)
Rf=(.824)
Conclusion:
The experiment was successful in that we did isolate eugenol as proven by thin layer chromatography. Our Rf value was somewhat high. This is probably because the beaker with the chloroform was not 100 % closed during the time we did the thin layer chromatography. Our watch glass was not 100% efficient. Also when we were heating the liquid in the condenser, heating the liquid at a rate too high could cause excess materials to come out in the final product.
Other than that, human error is a concern. This can be minimized by careful observation, and proper procedure. Still, our percent error was under 1 percent, which is very favorable.