This document provides an overview of colloids and emulsions. It defines colloids and discusses their classification based on physical state and particle interactions. Methods for preparing and purifying lyophobic and lyophilic colloids are described. Key properties of colloids like Tyndall effect and electrophoresis are summarized. Applications of colloids include rubber plating, sewage disposal, and the cleaning action of soap. Emulsions are defined as liquid-liquid colloids like milk, and the document concludes with thanking the reader.
Here almost full every topics interrelated with colloid chemistry has been discussed.The slides have been made showing question pattern taking Begum Rokeya University Chemistry Department previous year questions to appear the slides easy towards the viewers.Stay join with me.Thank you.
A colloid is a substance microscopically dispersed throughout another substance.
The word colloid comes from a Greek word 'kolla', which means glue thus colloidal particles are glue like substances.
These particles pass through a filter paper but not through a semipermeable membrane.
Colloids can be made settle by the process of centrifugation.
Colloidal Dispersion, Its Types and Method of PreparationChitralekhaTherkar
Dispersion
Definition of Colloids
Shapes and Sizes of Colloids
Classification of Colloids
Properties of Colloids
1. Optical Properties.
2. Electrical Properties.
3. Kinetic Properties
Purification of Colloids
Method of Preparation of Colloids.
Physical Stability of Colloids.
Factors affecting Colloidal Dispersion.
Colloids are crucial to both ordinary living and pharmacological formulations. the study of both big molecules
and intricately divided multiphase systems is known as colloidal science. the intersection of colloid and
surface science is the multi-phase system. a colloid is a mixture in which one material is suspended within
another substance and has insoluble particles scattered over a tiny scale. between genuine solutions and
suspensions, colloidal solutions or colloidal dispersions represent a middle ground. the dispersed phase of
colloids is distributed throughout the dispersion medium. in many facets of chemistry, colloidal chemistry
knowledge is necessary. this article provides information on what colloids are, their types, sizes, forms,
qualities, and uses.
Introduction to Cell organelels of a eukaryotic cells...................................................................................................................................................................................................................... CELL ORGANELLES ........
Here almost full every topics interrelated with colloid chemistry has been discussed.The slides have been made showing question pattern taking Begum Rokeya University Chemistry Department previous year questions to appear the slides easy towards the viewers.Stay join with me.Thank you.
A colloid is a substance microscopically dispersed throughout another substance.
The word colloid comes from a Greek word 'kolla', which means glue thus colloidal particles are glue like substances.
These particles pass through a filter paper but not through a semipermeable membrane.
Colloids can be made settle by the process of centrifugation.
Colloidal Dispersion, Its Types and Method of PreparationChitralekhaTherkar
Dispersion
Definition of Colloids
Shapes and Sizes of Colloids
Classification of Colloids
Properties of Colloids
1. Optical Properties.
2. Electrical Properties.
3. Kinetic Properties
Purification of Colloids
Method of Preparation of Colloids.
Physical Stability of Colloids.
Factors affecting Colloidal Dispersion.
Colloids are crucial to both ordinary living and pharmacological formulations. the study of both big molecules
and intricately divided multiphase systems is known as colloidal science. the intersection of colloid and
surface science is the multi-phase system. a colloid is a mixture in which one material is suspended within
another substance and has insoluble particles scattered over a tiny scale. between genuine solutions and
suspensions, colloidal solutions or colloidal dispersions represent a middle ground. the dispersed phase of
colloids is distributed throughout the dispersion medium. in many facets of chemistry, colloidal chemistry
knowledge is necessary. this article provides information on what colloids are, their types, sizes, forms,
qualities, and uses.
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3. Session Objectives
Colloids
Classification of colloids
Preparation of colloidal sols
Purification of colloidal sols
Important properties of colloidal sols
Emulsions
Identification of emulsion
Preparation of emulsions
Applications of colloids
4. Colloids
Solute and solvent are replaced by dispersed
phase & dispersion medium
Sols( solid in liquid),gels(liquids in solids),
emulsions (liquid in liquid)
Size of particles lies between that of true
solution and suspension, i.e. 10 Ao to 1000 Ao
5. Property True solution Suspension Colloidal solution
Nature Heterogeneous Appears to be homogenous
but actually heterogeneous
Particle size < 10–9 Ao (1 nm) > 1000 Ao (100 nm) Between 10 Ao (1 nm) to
1000 Ao (100 nm)
Sedimentation Do not settle Settle on standing Do not settle
Diffusion Diffuse quickly Unable to diffuse Diffuse slowly
Visibility Particles invisible Particles visible by
naked eye or under
microscope
Particles scatter light and
can be observed under
ultramicroscope
Filterability Pass easily through
animal membrane
and filter paper
Unable to pass through
animal membrane or
filter paper
Pass through filter paper
but not through animal
membrane
Appearance Clear and
transparent
Opaque Translucent
Homogeneous
6. Classification of colloids
Classification is based on following criteria
Physical state of dispersed phase and dispersion medium.
Nature of interaction between dispersed phase and dispersion medium.
Types of particles of the dispersed phase.
7. Classification based on physical state of
dispersed phase and dispersion medium
Eight types of colloidal systems are possible.
Dispersed
phase
Dispersion
medium
Type of
colloid
Example
Solid Solid Solid sol Some coloured glasses, and
gem stones
Solid Liquid Sol Paints, cell fluids
Solid Gas Aerosol Smoke, dust
Liquid Solid Gel Cheese butter, jellies
Liquid Liquid Emulsion Milk, hair cream
Liquid Gas Aerosol Fog, mist, cloud, insecticide
sprays
Gas Solid Solid sol Pumice stone, foam rubber
Gas Liquid Foam Froth, whipped cream, soap-
lather
8. Classification based on nature of interaction
Lyophobic colloids (solvent hating colloids )
When metals and their sulphides simply mixed with
dispersion medium, they don’t form colloids.
• need stabilizing to preserve them.
• irreversible.
• For example, colloidal solutions of gold,silver, Fe(OH)3, As2S3, etc.
Lyophilic colloids ( solvent loving)
Directly formed by substances like gum, gelatine rubber etc.
on mixing with a suitable liquid(the dispersion medium).
• self-stabilizing
• reversible sols
• For example, gums, gelatin, starch, albumin in water.
9. Classification based on type of particles
of the dispersed phase
Multimolecular colloids : Consists of
aggregates of a large number of atoms
or smaller molecules whose diameter is
less than 1 nm
Macromolecular colloids: In these colloids,
the molecules have sizes and dimensions
comparable to colloidal particles. For example,
proteins, starch, cellulose.
10. Associated colloids
At low concentrations, behave as normal, strong electrolytes
At higher concentrations exhibit colloidal state properties due
to the formation of aggregated particles (micelles)
The formation of micelles takes place only
above a particular temperature called
Kraft temperature (Tk) and above a
particular micelle concentration called
Critical Micelle Concentration
E.g Soaps and detergents
11. Multimolecular colloids Macromolecular colloids Associated colloids
Formed by aggregation of
large number of atoms or
molecules with diameters
less than 1 nm
Formed by aggregation of large
number of ions in concentrated
solution
Lyophilic in nature Lyophobic in nature Both lyophilic and lyophobic in
nature
Molecular mass is
intermediate
High molecular mass High molecular mass
Held by weak van der
Waals’ forces
Held by stronger van der
Waals’ forces due to the
long chains
van der Waals’ forces increase
with increase in concentration
Formed by large
sized molecules
12. Preparation of Lyophobic sols
Condensation methods
Particles of atomic or molecular size are induced to form aggregates
Exchange of solvent
Colloidal solution of phosphorus is prepared by addition of alcohol
into a solution of phosphorous in excess water.
Oxidation method
Sulphur colloids are prepared by oxidation of H2S by O2.
Reduction
Silver colloids are prepared by passing H2 through a saturated aqueous
solution of silver oxide at 65° C.
Hydrolysis
Dark brown Fe(OH)3 colloidal solution is prepared by adding FeCl3
into boiling water.
Double decomposition
Arsenious sulphide colloidal solution is prepared by passing of
H2S gas into a solution of As2O3.
13. Preparation of Lyophobic sols
Dispersion methods
Mechanical disintegration
By vigorous mechanical agitation.
Peptization : Process of passing of a precipitate into colloidal particles
on adding suitable electrolyte is known as peptisation
e.g. Fe(OH)3 solution is formed from FeCl3.
Electrol-disintegration (Bredig’s arc method)
Electrical disintegration of a colloidal solution, e.g. alternating
current passed through a gold solution.
14. Purification of colloids
Ultrafiltration
In this process the colloidal particles are separated by the process of
filtration, through a filter paper, which is impregnated with gelatin or
collodion followed by hardening in formaldehyde.
Dialysis
In this process, the colloidal particles are separated from the
impurities (mainly electrolytes) by the diffusion through a porous
membrane such as parchment, collodion, etc.
Electrodialysis
This is a special type of dialysis process, which is accelerated by the
application of a potential difference across the membrane. So ions
migrate faster than the colloids .
15. Properties of colloids
Optical properties: Tyndall effect
When a beam of light falls at right angles to the line of view
through a solution, the solution appears to be luminescent and
due to scattering of light the path becomes visible.
Quite strong in lyophobic colloids while in lyophilic colloids it is quite weak.
18. Properties of colloids
Electro-osmosis: molecules of dispersion medium are allowed to move
under influence of electric field
Coagulation or flocculation:Process which involves coming
together of colloidal particles so as to change into large sized
particles which ultimately settle as a precipitate or float on
surface.It is generally brought about by addition of electrolytes.
The minimum amount of an electrolyte that must be added to one litre
of a colloidal solution so as to bring about complete coagulation or
flocculation is called coagulation or flocculation value.Smaller is the
flocculation value of an electrolyte,greater is the coagulating or
precipitating power.
19. Properties of colloids
For positively charged, then the coagulating
power of electrolytes follow the following order:
3 2
4 4
PO SO Cl
Hardy schulze law : Coagulating power of an
electrolyte increases rapidly with the increase in
the valency of cation or anion.
For negatively charged sol, the coagulating
power of electrolytes are
AlCl3 > BaCl2 > NaCl or Al3+ > Ba2+ > Na+
20. Gold Number
Covering up of lyophobic particles by lyophilic
particles is known as its protective action and such
colloids are called protective colloids.
Gold number is defined as amount of protective sol
that will prevent the coagulation of 10 ml of a gold
solution on the addition of 1 ml of 10% NaCl solution.
Smaller the gold number,higher is protective power
21. Emulsion
A colloidal dispersion of one liquid in another
immiscible liquid is known as an emulsion,
e.g. milk, Na-soaps, vanishing cream, etc.
1. Oil in water, where oil is the dispersed phase and water
is the dispersion medium, e.g. milk.
2. Water in oil where water is the dispersed phase and oil
is the dispersed medium, e.g. butter, cream.
Types of emulsions
22. Cleaning Action of Soap
Soap contains a nonpolar carbon end that
dissolves in nonpolar fats and oils, and a
polar end that dissolves in water.
Dust and soap molecules form micelles
that dissolve in water and are
washed away.
Soap forms a precipitate with ions in hard
water (Ca2+, Mg2+, Fe3+)
23. Applications of colloids
1. Rubber plating
2. Sewage disposal
3. Smoke screen
4. Purification of water
5. Cleaning action of soap
6. In medicine
7. Formation of delta
8. Photography
9. Artificial rain