1 / 33

Disperse systems. Colloidal solutions: the preparation, purification and properties.

THEME. Disperse systems. Colloidal solutions: the preparation, purification and properties. Plan. Disperse systems. Classification. Colloidal stat. Types of colloidal solution. Preparation of colloidal solutions. Method of purification colloidal solution. Structure of colloidal parts.

keaira
Download Presentation

Disperse systems. Colloidal solutions: the preparation, purification and properties.

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. THEME Disperse systems. Colloidal solutions: the preparation, purification and properties.

  2. Plan • Disperse systems. Classification. • Colloidal stat. Types of colloidal solution. • Preparation of colloidal solutions. • Method of purification colloidal solution. • Structure of colloidal parts. • Stability of disperse systems • Coagulation. The coagulation threshold. • Sedimentation.

  3. Disperse systems are called systems, which consist of two phases, one of which is scattered or dispersed in other. The disperse phase- phase which is scattered (dispersed) in medium. The disperse medium - phase in which dispersion done.

  4. Classification: • By stat of dispersed phase and dispersed medium

  5. By size of dispersed phase

  6. Fog

  7. Colloidal solution Colloidal solutions have dispersed phase particle, which size between 10-9 to 10-7m or 1 nm to 100 nm.

  8. Classification of colloidal solution • Lyophilic colloids - solvent-attracting • Lyophobic colloids - solvent-repelling

  9. Preparation of colloidal solutions • 1. Dispersion or disintegration methods: • Mechanical disintegration • Electro-disintegration (Bredig s method). • 2. Peptization • 3. Condensation or aggregation methods: • chemical reaction: • - double decomposition; • - reduction; • - oxidation; • - hydrolysis. • exchange of solvent; • condensing vapours of a substance into the solvent; • excessive cooling.

  10. Dispersion These methods involve the breaking of the bigger particles to colloidal size.

  11. Mechanical disintegration • The mechanical disintegration is carried out in a machine called «colloid mill». It consists of two steel discs with a little gap in between and capable of rotating in the opposite directions at high speed. А suspension of the substance in water introduced into the mill. The size of suspension particles is reduced to that of colloidal size

  12. Electro-disintegration (Bredig’s method) This method is employed for obtaining colloidal solutions of metals like gold, silver, platinum etc. An electric arc is set up between two metallic electrodes suspended in а trough of water. The intense heat of the arc converts the metal into vapours which are condensed immediately in the ice cold water bath resulting in the formation of particles of colloidal size

  13. Peptization - is a process of passing of a precipitate into colloidal particles on adding suitable electrolyte. The electrolyte added is called peptizing agent.

  14. Condensation or aggregation methods These methods involve the joining together of а large number of smaller particles to form particles of colloidal size.

  15. Chemicalreactions By double decomposition: As2O3 + 3H2S = As2S3 + 3H2O By reduction: 2 AuCl3 + 3SnCl2=2 Аu + 3SnCl4 By oxidation: Br2 + H2S = S + 2 HBr By hydrolysis: FeCl3 + 3H2O = Fe(OH)3 + 3HCl

  16. By exchange of solvent Substances like sulphur and phosphorous are fairly soluble in alcohol but less soluble in water. If their alcoholic solutions are poured in water, colloidal solutions of sulphur and phosphorus are obtained

  17. By condensing vapours of а substance into the solvent • Colloidal solutions of sulphur and mercury in water are prepared by passing their vapours cold water containing а little stabilizing agent like ammonium nitrate.

  18. By excessive cooling Colloidal solution of ice in an organic solvent like ether is obtained by freezing a mixture of the solvent and water

  19. Purification colloidal solutions When a colloidal solution is prepared, quite often it contains certain impurities of electrolytes which are crystalloidal in nature and tend to destabilize the solution. Hence their removal is very essential.

  20. Method of purification colloidal solution • Dialysis: electrodialysis; compensatory dialysis; vividialisis; hemodialysis; Artificial kidney. • Ultrafiltration • Ultracentrifugation

  21. Dialysis • The process of separating the particles of colloids from those of crystalloids by diffusion of the mixture through semipermeable membrane (а parchment or an animal membrane) is known as dialysis. • The above process can be quickened if an electric field is applied around the membrane (the process is then called Electro- dialysis).

  22. Electro-dialyser

  23. The most important application of dialysis is in the purification of blood in the artificial kidney

  24. artificial kidney

  25. Structure of colloidal parts {[nuclear] + adsorptive layer} diffuse laeyr

  26. Structure of a micelle Fe (OH)3. • The iron hydroxyde sol a formed, if iron chlorate is hydrolyzed: • FeCl3 + H2O = Fe(OH)3 + HCl • Reaction products interact: • Fe (OH)3 + HC1 = FeOCI + 2H2O • Iron oxychloride can dissocied: • FeOCI = FeO+ + Cl- • The potential-determining ionswill be only FeO+ as the ion Cl-: • {[Fe(OH)3]m n FeO+ (n-x)Cl-}x+ xCl-

  27. Properties 1. Physical Properties • Heterogeneous character • Stability • Filterability • Visibility 2. Colligative properties - osmotic pressure 3. Mechanical properties – Brownian movement 4. Optical properties – Tyndall affect 5. Electrical properties

  28. Kinetic stability • А major source of kinetic stability of colloids is the existence of an electric charge on the surfaces of the particles. On the account of this charge, ions of opposite charge tend to cluster nearby, and an ionic atmosphere is formed.

  29. On placing а colloidal solution under the influence of an electric field, the particles of the dispersion medium move towards oppositely charged electrode, provided the colloidal particles is called electro-osmosis.

  30. The movement of colloidal particles under the influence of an electric field is called electrophoresis or cataphoresis. а) Before electrophoresis (b) After electrophoresis

  31. Flocculation (coagulation) Aggregation of the particles arising from the stabilizing effect of this secondary minimum is called flocculation.

  32. Hardy-Schulze Law • Greater is the valency of the oppositely charged ion of the electrolyte being added, the faster is the coagulation.

  33. Sedimentation • In а gravitational field, heavy particles settle towards the foot of а column of solution by the process called sedimentation.

More Related