This to extract caffeine from aqueous extract of tea

This
experiment will be conducted to extract caffeine sample from tea. Tea itself is
a beverage that is commonly used by many people since 2,000 years ago in China
and infusing the young leaves basically produces it and leaf buds of the tea
plant, in the boiling water. In terms of this chemical composition, the
chemical substances in tea can be divided into two major groups: water and dry
matter. In this case of this experiment, we will focus on the organic compound
caffeine.

Caffeine is
a chemical name, 1,3,7 – trimethylxanthine, belongs to a wide class of
compounds known as alkaloids that is found in over 60 plant species. Caffeine
is found in coffee (100 mg/cup), tea (30-75 mg/cup), chocolate (6-35 mg/oz),
and cola (46 mg/12 oz). The caffeine itself is belong to a family of naturally
occurring compounds known as xanthine’s which is considered as the oldest known
stimulants. The biological function of alkaloids in plants is still unknown,
but the small amount of it in animal organism and humans’ shows remarkable
physiological effect. Additionally, this organic compound is considered as the
most powerful xanthine in its ability to increase alertness, put off sleep, to
increase ones capacity for thinking, relaxes the blood vessels and increases
urination. Due to its structure, caffeine is both soluble in polar and
non-polar solvent. The solubility of caffeine in water is 22mg/ml at 25°C,
180mg/ml at 80°C, and 670mg/ml at 100°C. In this experiment, the organic solvent
dichloromethane (CH2Cl2) is used to extract caffeine from aqueous extract of
tea powder because caffeine is more soluble in dichloromethane (140mg/ml) than
it is in water (22mg/ml). The dichloromethane and caffeine mixture can then be
separated on the basis of the different densities of dichloromethane and water
because dichloromethane is much denser than water and insoluble in it. Residual
water is separated from dichloromethane by drain out the dichloromethane
through separating funnel, thus dichloromethane passed through the funnel while
polar solvents such as water is still remains in the funnel. But since, water
and dichloromethane is slightly soluble in each other, so after separating the
solvents, residual water will remain the organic layer.

We Will Write a Custom Essay Specifically
For You For Only $13.90/page!


order now
x

Hi!
I'm Angelica!

Would you like to get a custom essay? How about receiving a customized one?

Check it out