Glucose
Glucose is most common monosaccharide. It is known as Dextrose because it occurs in
nature principally as optically dextrorotatory isomer. Glucose is found in most sweet fruits,
especially grapes (20-30%), and honey. It is an essential constituent of human blood. The blood normally conatains 65 to 110 mg (0.06 to 0.1%) of glucose per 100 ml. In diabetic persons the level may be much higher. In combined form glucose occurs in abundance in cane sugar and polysaccharides such as starch and cellulose.
Preparation of Glucose
1. From sucrose (Cane sugar)
When sucrose in boiled with dilute HCl or H2SO4 in alcoholic solution, glucose and fructose are obtained in equal amounts.
2. From Starch
Glucose is produced commercially by the hydrolysis of starch by boiling it with dilute H2SO4 at high temperature under pressure.
in this process, an aqueous solution of starch obtained from corn is acidified with dilute H2SO4.
It is then heated with high pressure steam in an autoclave. When the hydrolysis is complete, the liquid is neutralized with sodium carbonate to pH of 4-5. The resulting solution is concentrated under reduced pressure to get the crystals of glucose.
Physical properties of glucose
Some important physical properties of glucose are mentioned as under:
1. It is colourless sweet crystalline compound having m.p.419 K.
3. It forms a monohydrate having m.p. 391 K.
4. It is optically active and its solution is dextrorotatory. The specific rotation of fresh
5. It is about three fourth as sweet as sugarcane i.e., sucrose.
Chemical properties of glucose
Chemical properties of glucose can be studied under the following headings:
(A)Reactions of aldehydic group
1. Oxidation.
(a) Glucose gets oxidized to gluconic acid with mild oxiding agents like
Only-CHO group is affected.
(b) A strong oxidizing agent like nitric acid oxidizes both the terminal groups viz. –CH2OH and –CHO groups and saccharic acid or glucaric acid is obtained.
(d) Glucose gets oxidized to gluconic acid with ammonical silver nitrate ( Tollen’s reagent)
and alkaline copper sulphate ( Fehling solution). Tollen’s reagent is reduced to metallic silver (silver mirror) and Fehling solution to cuprous oxide which is a red precipitate.
(i) With Tollen’s reagent
(ii) With Fehling solution
2. Reduction
(a) glucose is reduced to sorbitol or Glucitol on treatment with sodium
(b) On reduction with conc. HI and red P at 373 K glucose gives a mixture of n-hexane and 2-
3. Reaction with HCN
Like aldehydes, glucose reacts with HCN forming cyanohydrins.
4. Reaction with hydroxylamine
Glucose forms glucose oxime.
(B) Reactions of hydroxyl groups
1. Reaction with acetic anhydride or acetyl chloride.
2. Reaction with methyl alcohol
3. Reaction with metallic hydroxides
(C)Miscellaneous reactions
1. Action of acids
2. Fermentation.
3. Reaction with Alkalies
