COLLOIDAL SOLUTIONS. Department of Medical Chemistry Pomeranian Medical University

Similar documents
COLLOIDAL SOLUTIONS. Department of Medical Chemistry Pomeranian Medical University

A dispersion (system) Colloidal solutions High molecular mass compounds

COLLOID CHEMISTRY MD. KHAIRUL ISLAM

COLLOIDAL STATE. INTRODUCTION: Thomas Graham originally classified all substances in two

Overview. Lecture 5 Colloidal Dispersions

Heat Capacity of Water A) heat capacity amount of heat required to change a substance s temperature by exactly 1 C

Downloaded from

CHEMISTRY Ch. 14 Notes: Mixtures and Solutions NOTE: Vocabulary terms are in boldface and underlined. Supporting details are in italics.

Science For Class IX Is Matter Around Us Pure

1. Chemisorption is highly specific in nature. It occurs only if there is a possibility of chemical bonding between the adsorbent and the adsorbate.

MIXTURES AND DISSOLVING. CE/Honors Chemistry Unit 10

1. The Classification of Dispersion Systems 2. Lyophobic Colloids 3. The Stability and Coagulation of Dispersion Systems 4. Properties of Colloids

Chapter 11 Properties of Solutions

CHAPTER :COLLOIDS. Subject: Physical Pharmacy. Subject code:phcy102

1 Solutions and Other Mixtures

Colloidal Dispersions

Solution Formation. Copyright Houghton Mifflin Company.All rights reserved. Presentation of Lecture Outlines, 12 2

Name: Date: Class Notes Chemistry. Energy is the ability to move or change matter.

CHAPTER 7: Solutions & Colloids 7.2 SOLUBILITY. Degrees of Solution. Page PHYSICAL STATES of SOLUTIONS SOLUTION

Chapter 2 The Chemistry of Life

SURFACE CHEMISTRY

Solvent does the dissolving (acetone) Solute the substance being dissolved (Styrofoam ) Soluble able to be dissolved

A.% by mass (like % composition)

CHAPTER-2 NCERT SOLUTION

Water and Aqueous Systems

Properties of Solutions and Kinetics. Unit 8 Chapters 4.5, 13 and 14

Chapter 13 - Solutions

Molecular geometry. Multiple Bonds. Examples and Questions. Identify procane (an aesthetic) Larger Covalent Molecules. S h a p e

Types of Mixtures. Main Idea. Heterogeneous and Homogeneous Mixtures. Key Terms soluble solute electrolyte solution suspension nonelectrolyte

Chapter 3. Water and the Fitness of the Environment

CLASSIFICATION OF MATTER AND MIXTURES

Essential Knowledge. 2.A.3 Organisms must exchange matter with the environment to grow, reproduce and maintain organization

MATTER Classification of Matter. Composition of Matter

NSW Higher School Certificate Senior Science 9.2 Lifestyle Chemistry

Set 1: Set 2: Set 3: Set 4: Set 5:

Mixtures and Solutions

Experimental Classification of Matter

Section 1 What Is a Solution? Chapter 13. Mixtures

The components of a mixture sometimes can be seen easily; but mostly it s not quite easy to distinguish the components in a mixture.


SOLUTIONS CHAPTER 13

Precipitation Reactions of Protein. By Sandip Kanazariya

Elements, Compounds & Mixtures

models (three-dimensional representation containing essential structure of

Lesson 1 Substances and Mixtures

Research Science Biology The study of living organisms (Study of life)

Ch 13 The Properties of Mixtures: Solutions and Colloids

1. Which substance will conduct the current in the solid state? 1. Diamond 2.Graphite 3.Iodine 4.Sodium chloride.

What Are Atoms? Chapter 2: Atoms, Molecules & Life

LESSON 15.3 Key Objectives

Chapter-2: IS MATTER AROUND US PURE

Soln Notes February 17, 2017

*blood and bones contain colloids. *milk is a good example of a colloidal dispersion.

Pure Substances and Mixtures Picture Vocabulary. 8P1A Pure Substances and Mixtures

THE CHEMISTRY OF LIFE

SOLUTIONS. Heterogeneous Mixtures. Section 8.1: Solutions and Other Mixtures. Heterogeneous Mixtures (cont d) CHAPTER 8.

Atomic weight = Number of protons + neutrons

H 2 O WHAT PROPERTIES OF WATER MAKE IT ESSENTIAL TO LIFE OF EARTH? Good solvent High Surface tension Low vapor pressure High boiling point

AP Chemistry: Properties of Solutions

Lecture Presentation. Chapter 12. Solutions. Sherril Soman, Grand Valley State University Pearson Education, Inc.

This section will test your knowledge on Physical vs. Chemical Properties of matter.

Nature of Molecules. Chapter 2. All matter: composed of atoms

Unit-5-Surface chemistry

LECTURE PRESENTATIONS

Water and the Fitness of the Environment

Water and the Fitness of the Environment

II. The physico-chemical properties of proteins

Chapter 3: Water and Life

(critical temp.) (B) Temperature of gas (C) Pressure of gas (D) All of them 2. The volume of gases NH 3

Pure Liquid with solute. Pure Liquid

CHAPTER 2. Life s Chemical Basis

Overview. Types of Solutions. Intermolecular forces in solution. Concentration terms. Colligative properties. Osmotic Pressure 2 / 46

Chemistry-STD-XII Science Question Bank with Solution Surface Chemistry

41. Density compares the of substances which have the same. A) mass; weight D) temperature; mass B) volume; mass E) mass; temperature C) mass; volume

Surface Chemistry SO 4

Chapter 11 Problems: 11, 15, 18, 20-23, 30, 32-35, 39, 41, 43, 45, 47, 49-51, 53, 55-57, 59-61, 63, 65, 67, 70, 71, 74, 75, 78, 81, 85, 86, 93

Physical Science QUIZ-1. Unit Q10 Q11 Q12 Q13 Q14 Q15 Q16 Q17. Total. Teacher s Use Only. Student s Name. Max Score. Question Number.

Chapter 13. Properties of Solutions


CHEM1612 Answers to Problem Sheet 10

COLLOIDAL DISPERSIONS

the universal solvent

11) What thermodynamic pressure encourages solution formation of two nonpolar substances?

The Properties of Water

TECHNOLOGIES THAT TRANSFORM POLLUTANTS TO INNOCUOUS COMPONENTS: CHEMICAL AND PHYSICOCHEMICAL METHODS

Aqueous Solutions (When water is the solvent)

Word of the Day for August 27, Definition - any property of a substance that must be observed during a chemical change.

Solutions and other Mixtures. Ch 20.1

Chemistry Unit 1: Section1 - Elements, Compounds, & Mixtures

Solutions. Making sense of the aqueous world

Bell Ringer. What are the two types of mixtures? What is an element? What is a compound?

Chapter 2 Matter & Change

Section Objectives: Section Objectives: Distinguish mixtures and solutions. Define acids and bases and relate their importance to biological systems.

Chemistry Fourth Marking Period Review Sheet Spring, Mr. Wicks

Biological Chemistry Review

MATTER. Classifying Matter. Matter. Matter is ANYTHING that takes up space and has mass *even the air. Mixtures. Pure Substances

Properties of Solutions. Chapter 13

Solvents. Solvents at the hardware store

Chapter 2 Section 1: Classifying Matter. Classification of Matter. Classification of Matter 9/5/15

REVIEW: Water Structure

Transcription:

COLLOIDAL SOLUTIONS Department of Medical Chemistry Pomeranian Medical University 1

COMPONENTS OF THE SYSTEM -chemicals which create the system. They create different type of mixtures - which makes the system to exists in various phases. PHASE part of the system is separated from other phases with distinct border where sudden change in physico-chemical changes takes place. Phase containing one component pure substance Phase containing more than one component - solution SOLUTION mixture of two or more components dissolved in solvent (solvent-subtance in quantitative excess over other componet) 2

Systems can be divided due to: 1) number of components: one-component multicomponent 2) number of phases : single phase multiple phase SYSTEMS: SYSTEMS HETEROGENOUS multiplephase (seemingly single-phase), heterogeneous; eg. water with ice (heterogeneous, two-phase, singlecomponent system ), water with mercury (heterogeneous, two-phase, twocomponent system ) HOMOGENOUS single-phase, homogeneous throughout the volume, both chemically and physically; e.g. glucose solution (homogeneous single phase, two components system) 3

Types of solutions depending on size of dispersed phase in dispersive medium TYPE OF SOLUTION True solution (homogeneous) Colloidal (heterogeneous) DIAMETER OF PARTICLES OF DISPERSED PHASE < 10-9 m (<1nm) 10-9 - 10-7 m (1-100 nm) Suspension > 10-7 m (>100 nm) 4

COLLOIDAL SOLUTIONS COLLOIDAL SOLUTIONS heterogenous dispersive system with distinguished continuous scattering phase (solvent)) and discontinuous dispersed phase with particle diameter of 10-9 - 10-7 m (1 100 nm, up to 500nm) All living cells are sets of various colloidal systems. Colloidal systems are widespread : in animate nature (proteins, carbohydrates) in inanimate nature (clay, fog, volcanic dust) synthetic materials (soap, colorants, colloidal sulphur, metal oxides) 5

COLLOIDAL SOLUTION HETEROGENEOUS system - with particle size of 10-9 -10-7 m in diameter (1 100 nm, up to 500 nm) COLLOIDAL SOLUTIONS 10-9 m = 1 nm = 0.001 micron 10-7 m = 100 nm = 0.1 micron 10-6 m = 1000 nm = 1 micron 6

Properties of colloids (1): 1. They can be seen in ultra microscope. Attention: the difference between an ultra-microscope and ordinary one is that in the former the light falls laterally on the liquid under study, instead of from below. The ordinary microscope with x400 magnifications has limitations for particles below 1 micron, but it is still able to show general structures of colloid system. 2. They are not dialyzed > Colloidal particles will not be separated by membranes (like bladder or parchment paper), because they will not diffuse through a membrane. 3. They show permanent Brownian motions mostly particles smaller than 100nm are able to do strong Brownian motion. 4. They show Tyndall effect visible light scattering by the colloidal particles. 5. They may coagulate > colloid particles become agglomerated. 7

Tyndall Effect This is light scattering by colloidal solution (for example by dust, fog, milk,etc.). When light beam passes through the colloidal dispersion it is scattered and therefore is visible. When light beam passes through the solution, like glucose dissolved in water, it is not scattered and therefore it cannot be seen. Intensity of this phenomena is larger when difference between light scattering of dispersive medium is larger then light scattering of dispersed phase. 8

Solutions vs Colloids The Tyndall Effect True Solution e.g. water + glucose Colloidal mixture, e.g. milk 9

The Tyndall Effect 10

CLASSIFICATION OF COLLOIDAL SYSTEMS DEPENDING ON : I. STATE OF DISPERSING AND DISPERSED PHASE Disperssed phase Disperssing phase COLLOID EXAMPLE Gas Gas - - Liquid Gas Aerosol liquid Fog, clouds, vapors Solid Gas Aerosol solid Smoke, dust Gas Liquid Foam Foam: soap, beer Liquid Liquid Emulsion Creams, nail polish, milk, mayonese, butter Solid Liquid Sol Polymer solutions Gas Solid Foam Pumice, styrofoam Liquid Solid Emulsion solid Gels, opal Solid Solid Sol solid Glass rubin, colour cristals 11

CLASSIFICATION OF COLLOIDAL SYSTEM : II. III. Size of colloidal particles: monodispersive (particles of dispersed phase have the same dimensions) polydispersive (particles of dispersed phase have different dimensions) Affinity of dispersed phase to dispersing medium : liophilic colloids they have large affinity to solvent particles; colloidal particles are surrounded by solvent particles liophobic colloids they have small affinity to solvent and adsorb on the surface of particles large quantities of one type of ions 12

CLASSIFICATION OF COLLOIDAL SYSTEM DEPENDS ON (cont.) IV. Quality of dispersed phase: Emulsions the dispersed phase is of nonpolar character (e.g. lipids) and does not have affinity to dispersion medium (e.g. water). Emulsions have hydrophobic character and are also called suspensions or irreversible colloids. In living organisms example of emulssions are lipids. Small particles of lipids can be dispersed in water thanks to the compounds called emulsifiers. Emulsifier this is compund which can be dissolved in both dispersed phase and dispersion medium. For example, consumed fats are emulsified by bile acids contained in bile. They have ability to decrease surface tension, like soap in water. 13

AgI micelle structure precipitated with excess of KI DIFFUSION LAYER nucleus Nucleus of colloidal molecule +adsorbtion layer core micelle 14

COLLOIDS STRUCTURE Hydrophobic micell are mostly built by oxides, sulphates, hydroxides of heavy metals Hydrophilic colloids are built usually by large molecules such as : proteins. Their stability is due to the presence of water molecules adsorbed on their surface. 15

Coagulation (1) COAGULATION it is an ability of colloid particles to combine with each other and form larger structures called agregates. After reaching appropriate size they loose ability to flow and they sediment on the bottom. Coagulation can be caused by: 1. radioactivity beta ray 2. heating coagulation of protein (egg) 3. evaporation or freezing of dispersive medium 4. dehydration, for example by using acetone, alcohol 5. addition of electrolite to colloid 16

Coagulation (2) Peptization process opposite to coagulation breaking coagulate and return from coagulate to colloid. SOL coagulation GEL peptization 17

Coagulation (3) Hydrophilic colloid (reversible) takes place when water coat has been removed Hydrophobic colloids (irreversible) takes palce when electrical charge present on the surface becomes neutralized. 18

HYDROPHOBIC COLLOIDS HYDROPHILIC Salts with multivalance cations Strongly hydrated salts coagulate Water particles 19

Coagulation (4) Conditions for salting out of protein Proteins are easiest to be salted out in their isoelectric point (pi) because they do not posses any electrical charge, they attract themselves strongly and create aggregates, which leads to precipitation (lack of electrical charge helps molecules to aggregate, which allows them to precipitate from solution). In ph different from pi, protein due to presence of the surface charge can exist in solution despite not having water coat ( they behave similar as hydrophobic colloids) Addition of small amount of neutralizing electrical charge ions leads to protein precipitation. Such protein does not posses either electrical charge or water coat. 20

dyhadration Conditions for salting out protein from solution Protein ion Protein in pi Protein cation Base addition ph increase Acid addition ph decrease Charge lost due to cation addition charge lost due to anion addition Protein anion precipitate Protein cation suspenoid 21

Salting out of proteins Proteins are easy to salt-out in isoelectric point (pi) and in this state they easily sediment as larger aggregates. [Isoelctric point it is ph at which proteins have no electric charge]. In ph different than pi protein can exist in solution despite having no hydrophilic coat. http://elte.prompt.hu/sites/default/files/tananyagok/introductiontopracticalbiochemistry/ch05s04. html 22

PROTECTIVE ROLE OF HYDRPHILIC COLLOIDS ON HYDROPHOBIC COLLOIDS Hydrophilic colloids show higher stability than hydrophobic colloids, because of two stabilizing factors: hydration layer sometimes - particles have the same charge (which can be result of dissotiation of acidic or basic groups being present in colloidal particle) Hydrophilic colloids are acting protective on hydrophobic colloids addition of hydrophilic colloid to hydrophobic is causing creation of stable system from which it is difficult to precipitae suspended particles (e.g. small amount of protein added to colloidal gold suspension protects it from coagulation). Protective role of colloid can be determined quantitatively by providing gold number ( gold number it is the smallest amount of miligrams of protective colloid in respect to pure substance which is able to protect 10cm 3 0,1% of formaldehyde gold sol, against color change from red to purple after addition of 1cm 3 10% NaCl ) 23

The End 24

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback